Post on 15-Sep-2018
transcript
Jean-Pierre Bacle
Judith A. Towle
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As funded by the late Laurance S. Rockefeller and coordinated by Island Resources
Foundation (IRF), the overall goal of the SANDY CAY DEVELOPMENT PROGRAMME FOR THE
BRITISH VIRGIN ISLANDS has been:
To sufficiently support and strengthen specific institutions, programmes and policies in
the BVI so as to assure the owner of Sandy Cay that the island will be managed and
protected in perpetuity as a unique natural area in keeping with the principles,
objectives and strategies exercised at Sandy Cay for more than three decades.
Securing the future of Sandy Cay has been the ultimate goal; and to achieve this
objective, a multifaceted programme of sustained and targeted assistance for BVI
institutions, laws, and policies that support conservation and protected area management
was provided by Mr. Rockefeller, and more recently by the Estate of Laurance S.
Rockefeller, since the year 2000.
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SANDY CAY I (2000-2002)
The first phase of the Sandy Cay Programme focused on the island itself. For 40 years
Sandy Cay was maintained as a private park by the island’s owner, but one that was always
open to the public. However, by the late 1990s, Mr. Rockefeller was increasingly concerned
about escalating user pressures at Sandy Cay, and he therefore asked Island Resources
Foundation to develop a detailed environmental profile of the island’s ecosystem. This
study was followed by preparation of a working resource management strategy for the
island, which was both a looking-back review of management of the island under Mr.
Rockefeller’s stewardship and a planning tool for the island’s future custodianship and
continuing public use.
In 2002, with funding provided by Mr. Rockefeller, IRF launched a rat eradication
Programme for Sandy Cay, the first such invasive species control effort in the BVI. At the
end of 2007, IRF researchers, who had maintained a rigorous five-year species monitoring
programme, reported that the island remained free of rats, with no evidence of the once
well-developed network of ―rat trails‖.
SANDY CAY II (2003-2005)
The second phase of the Sandy Cay Programme was carried out over a two-year period
by IRF and the National Parks Trust (NPT); it focused on the institutional development of
the Trust and strengthening the policy and legal basis for protected area management in the
BVI. At the commencement of SANDY CAY II, both the donor (Laurance Rockefeller and his
associates) and the implementing organisation (IRF) anticipated that there would be
sufficient confidence in the management capacity of an indigenous BVI institution—most
likely the National Parks Trust—to make possible a transfer of Sandy Cay from private to
public park management by the end of 2005.
SANDY CAY II, which was completed on June 30, 2005, influenced and strengthened the
framework for park and protected area management in the BVI. Project participants
concluded that the National Parks Trust remained the logical and best management
alternative for Sandy Cay’s long-term protection. However, the immediate transfer (in
2005) of the island to BVI sovereignty as a part of the National Parks System was not
recommended by the executors of Mr. Rockefeller’s Estate, primarily because critical
conditions relative to a responsible transfer had not yet been fully resolved.
SANDY CAY III (October 1, 2005—December 31, 2007)
The third phase of the Sandy Cay Programme constituted a final ―transition period‖ for
the island of Sandy Cay, after which time ownership of the property will pass from private to
public control. The projected change in the island’s management and ownership status was
dependent on successful completion of the conditions defined by the Executors of Mr.
Rockefeller’s Estate in its correspondence with the BVI Government under date of November
23, 2005.
These studies were distributed by Island Resources Foundation as: The Sandy Cay (BVI) Ecosystem: A
Resource Characterization (2001, 101 pp.) and Sandy Cay, British Virgin Islands: A Management Plan (2001, 113 pp.).
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These conditions reflected not only the exercise of due diligence on the part of the
Rockefeller Estate but also provided an opportunity to finalise priority institutional issues
that had been pursued under the SANDY CAY II project. The Transition Plan provided a
framework through which the British Virgin Islands Government could address and complete
the tasks that need to be achieved — but not in any particular sequence — prior to a
transfer of Sandy Cay. The conditions were defined by the following benchmarks:
1. Enactment of a National Parks Act.
2. Enactment of Regulations to the National Parks Act.
3. Drafting of an Implementation Plan for the National Parks Act by the
National Parks Trust.
4. Development of an Implementation Plan for the new NPT Fiscal
Management Guidelines.
5. Follow-up evaluation of the new NPT Fiscal Management Guidelines by an
independent review organisation.
6. Preparation of a System Plan for BVI Protected Areas.
7. Approval of the System Plan for BVI Protected Areas by the NPT Board
and the Minister of Natural Resources.
8. Preparation by the NPT of a Site Management Plan for Sandy Cay as a
managed wilderness protected area.
9. Approval of the Site Management Plan for Sandy Cay by the NPT Board.
10. Adoption of Board Operating Procedures by the NPT Board and approval
by the Minister.
In August of 2007, the Executors of the Estate of Laurance S. Rockefeller confirmed
their intention to transfer the island of Sandy Cay to the National Parks Trust as a protected
area in perpetuity. The transfer is expected to take place early in 2008 after the remaining
details of the transfer have been fulfilled.
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For four decades, from the late 1960s, when Mr. Laurance S. Rockefeller purchased
Sandy Cay, to 2008, when the Estate of Laurance S. Rockefeller donated the property as a
protected natural area to the British Virgin Islands National Parks Trust, this 14-acre,
uninhabited island was maintained as a private park by the island’s owner—a combination
botanic garden, nature reserve, and low-key recreational facility open to the public.
During the early years of his stewardship, Mr. Rockefeller put in place a management
strategy that permitted him not only to practice island conservation but also to experiment
with improving the island’s visual perspectives and the aesthetics of selected landscape
features. His aim was to facilitate an understanding of what he termed the ―wilderness
qualities‖ of Sandy Cay. His vision included horticultural enhancement, clearing of
underbrush, increasing the number of coastal coconut palm trees, and making the island
accessible by creating and maintaining a simple walking trail. Mr. Rockefeller also
encouraged the island’s use by visiting yachtsmen and boaters, even as he continued—for
40 years—to care for the palm trees, control insects, improve vistas, monitor wildlife,
address hurricane damage recovery, and practice wise husbandry of the landscape.
Less known about Mr. Rockefeller’s management of Sandy Cay is that a modest, but
longstanding, site maintenance and monitoring programme was informally carried out there,
almost from the beginning. The value of this continuous monitoring regime arises more
from its longevity than from its breadth or scope. The intrinsic importance of Sandy Cay
has undoubtedly been enhanced by its associated environmental information data sets,
some going back for more than 35 years.
Therefore, a first priority of site management in the post-Rockefeller era should be to
sustain the oversight and monitoring process already in place and extend it through time,
perhaps improving the reporting function by aiming at a wider audience of potential data
users. Sandy Cay should be viewed as a work in progress, and its value as a model
archetypal ecosystem will be enhanced by continuation of similar oversight and monitoring
regimes. This should be accepted as an essential task in designing future management
programmes for Sandy Cay.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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Sandy Cay’s longstanding owner maintained the island with a well-ordered and well-
informed strategy of benign intervention, embracing a curatorial and monitoring framework
that included the services of a BVI caretaker for waste management and trail maintenance
and systematic and regular horticultural oversight by a Rockefeller-employed professional.
The various components of this site maintenance framework are summarised below.
Mr. Rockefeller’s approach to maintaining Sandy Cay as a kind of ―insular garden‖
blended horticulture, landscape architecture, and conservation. He sought to enhance both
the substance and image of the island by optimising vistas to surrounding islands, nurturing
and exposing naturally colorful flowering plants, and clearing sight lines in the vegetative
under-story. The ongoing objective was to augment the canopy effect, enabling a visitor to
sense the complexity of the intermixed natural plant, tree and wildlife communities that
constitute the island’s ecosystem. The long-term goal was to encourage the growth of a
virtually natural setting with as few non-natural distractions as possible—in effect, to
encourage a ―managed wilderness‖ landscape.
To implement Mr. Rockefeller’s goal required considerable work, in particular, his plan
to enhance the vegetational cover of Sandy Cay by introducing coconut palm seedlings.
What began as only a handful of resident palm trees became, through an elaborate planting
scheme, a veritable forest of palms, totaling over 180 established trees by 1988. Following
significant hurricane damage in 1989 and 1995, the number of surviving palms dropped to
approximately 100 trees, and most recently (2006 count) to 89. Nevertheless, they
continue to provide an aesthetically pleasing backdrop to lower coastal vegetation and a
canopy effect and shade for visitors along a circumferential walking trail that had been cut
in the late 1960s.
Mr. Rockefeller and his horticulturalist, Roy Thomas, knew that the young palm
seedlings would grow rapidly if properly watered and fertilised. The juveniles were planted
adjacent to seagrape and nothing nut trees in company with other shorter flowering shrubs
and bushes, fronted by prolific spider lilies. Rockefeller and Thomas sought to use the
multiple, overlapping vertical and horizontal layers of green vegetation, with different
shades and textures, to present to the viewer walking the island’s trail with a varying sense
of harmonious space.
A piped irrigation system was initiated in 1970 to support the transplanted seedlings,
particularly during periods of extended drought. The system included a 6,000-gallon tank,
which utilised water brought to the island by barge, and over 1,000 feet of underground
piping. The fresh-water system also facilitated the systematic application of water-soluble
fertilisers, which were applied to encourage more rapid growth of the palms in their sandy
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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substrates and to lessen an unattractive, yellowish tinge to the palm fronds. The water
system was maintained until the late 1980s, after which fertilisers have been applied in
granular or tablet form.
The role of horticulturalist Roy Thomas at Sandy Cay, from 1969 to his death in 2005,
was a multifaceted one and illustrates the many oversight and monitoring tasks that will
continue to be required at the island. As the island’s part-time horticulturist, Thomas was
responsible for:
the ongoing design aspects of plant siting, undergrowth management, and
providing a pleasing landscape experience for visitors;
monitoring of periodic vegetation pruning;
pest identification and control;
invasive species management, primarily insects;
the health care of over 100 mature coconut palms;
supervising the island’s caretaker and periodic work crews; and
maintaining Sandy Cay archival files and records.
With the assistance of labourers from the Caneel Bay and Little Dix Resorts, Thomas
averaged two site visits per year to the island, a routine that, during the final years of
Rockefeller ownership, was assumed by his son, Chris, assisted by personnel from Island
Resources Foundation and the Sandy Cay caretaker from neighbouring Jost Van Dyke.
Since 1969, Mr. Rockefeller employed a ―caretaker‖ for Sandy Cay. The position has
always been filled by a resident of the nearby island of Jost Van Dyke, who generally
worked on site at Sandy Cay for approximately 1.5 to 2 days a month and commuted to the
island by boat. Until 2005, the caretaker worked as an independent contractor under the
general oversight of Roy Thomas, but with no regular supervision or schedule, utilising his
own tools, equipment and boat. The caretaker’s services were paid directly by Mr.
Rockefeller’s New York office.
In 2005, the Estate of Laurance S. Rockefeller entered into a new arrangement with the
Jost Van Dykes Preservation Society, an environmental NGO based in Jost Van Dyke. The
Society assumed responsibility for supervising the caretaker and for submitting reporting
documentation to the Rockefeller Estate. A format for the caretaker’s log entries when
visiting Sandy Cay was prepared by IRF in 2005 and is included herein as Annex A. The
current incumbent is Mr. David Blyden.
Except for the recent addition of tasks related to ongoing monitoring of invasive species
(see below, Monitoring of Invasive Species), historically the role of the Sandy Cay caretaker
has changed little over time. Primary responsibilities include:
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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keeping the walking path around the island (approximately 2,000 feet)
clean and clear of palm fronds and fallen branches;
pruning back the lower vegetation and vines along the trail edges;
selectively removing understory growth around the loblolly and fig trees to
enhance the view;
removing from the island all flotsam and jetsam plus any trash left
by visitors along the trail and on the beaches;
reporting emergencies, damage, or unusual events to the owner’s
representatives as soon as possible; and
logging the number of boats and people visiting the island.
Since implementation of the Agreement between the Jost Van Dykes Preservation
Society and the Rockefeller Estate in 2005, an additional layer of ―caretaking‖ has been
added to this process because members of the Society often pass near to Sandy Cay on
their commutes by ferry or private boat from Jost Van Dyke to Tortola. This informal
monitoring of the island provides yet another opportunity to check on Sandy Cay and note
any unusual or problematic events that need to be reported to the proper authorities.
Additionally, Society members frequently join the caretaker and/or staff from Island
Resources Foundation in clean-up and pruning activities at the island.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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Despite its smallness, uninhabited Sandy Cay has had the good fortune to avoid the
kinds of adverse environmental impacts that often accompany recreational tourism,
especially on smaller islands located adjacent to larger, tourism-intensive island clusters. To
help us understand more fully Sandy Cay’s good fortune, we have the detailed records of
the ever-conscientious Roy Thomas to consult, which span over 35 years of reporting.
These were summarised by Dr. Edward Towle in Annex A to Island Resources Foundation’s
Sandy Cay Management Plan (2001). The Thomas files include data regarding vegetation,
wildlife (especially birds), weather and hurricane effects, invasive insect species, and human
use levels.
In 2000, at the request of Sandy Cay’s owner, Island Resources Foundation carried out
a detailed study of Sandy Cay’s environment (reported in The Sandy Cay [BVI] Ecosystem—
A Resource Characterization, 2001). Subsequent to that study, the Foundation continued to
generate data from an informal monitoring regime established for the island, the various
components of which are summarised below in sub-sections (3) through (6). (See also
Annex F, where copies of the field trip reports issued by Island Resources Foundation from
2000-2007 have been provided.)
A more ambitious monitoring programme, in partnership with the H. Lavity Stoutt
Community College and the BVI National Parks Trust, did not advance beyond the design
phase.
Sandy Cay’s marine environment traditionally fell outside the sphere of concern of the
island’s longstanding owner, Mr. Laurance Rockefeller. In large measure, this can be
attributed to the fact that the island’s legal boundary stops at the high water mark.
As part of IRF’s environmental study of Sandy Cay, in May of 2000 two senior
investigators from the Virgin Islands National Park in St. John, USVI, carried out
comprehensive in-water observations of the marine communities surrounding the island.
Their findings are documented in IRF’s 2001 Sandy Cay Resource Characterization, as well
as in an 11-minute video presentation that is a subset of three hours of underwater taping.
A less detailed study was carried out in 2004 by Dr. Graham Forrester of the University of
Rhode Island and focused on Sandy Cay’s coral reef habitats and rocky-shore whelk
populations (Forrester, 2004). However, there are no long-term data sets available relating
to coral growth or disease at Sandy Cay, nor has there been systematic follow-up to the
2001 and 2004 one-time-only studies.
Regarding the nearshore coastal environment, IRF investigators concluded in 2000 that
two-thirds of Sandy Cay’s beaches were eroding. However, the heavily used, southwestern
beach section was relatively stable, although of course exhibiting significant seasonal
changes. There are no long-term data of beach changes at Sandy Cay, but the observations
of Roy Thomas over three decades and the more recent site visit reports of IRF’s Jean-
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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Pierre Bacle (see Annex F) contain periodic, albeit subjective, information concerning coastal
erosion witnessed at Sandy Cay.
In September of 2004, an IRF field team set up three beach profile stations on Sandy
Cay. The intent was to gather data on beach dynamics, with the expectation (unrealised)
that monitoring would continue on a seasonal or yearly basis. Since there is no
infrastructure at Sandy Cay to impact beach dynamics, such information could influence
decision-making relative to trail management, coastal vegetation, turtle nesting activity,
and human impact on the shoreline environment.
A profile of Sandy Cay’s fauna was provided in IRF’s 2001 Sandy Cay Resource
Characterization, which was predicated on a series of cross-disciplinary field investigations.
Given the size of the island, the 2000-2001 research was extensive, although several
requirements for supplemental study and monitoring of the island’s fauna were identified at
that time (see IRF’s Sandy Cay Management Plan, 2001). However, with the notable
exception of bird observations and occasional sea turtle monitoring, there have been no
additional studies of the island’s fauna since 2001.
Investigators found that the invertebrate fauna of Sandy Cay was apparently small and
lacks any unique elements of its own. However, researchers recommended that an
invertebrate wet-season survey be carried out to finish the dry-season survey done in May
2000. This remains an unfinished agenda item for further research at Sandy Cay.
Regarding reptilian fauna, three lizard species identified in IRF’s 2000 fieldwork were
also common to nearby Little Jost Van Dyke. Those observed on Sandy Cay were
abnormally large, appeared older, and had magnificent crests—indicative of a low number of
introduced predators on the island.
There was no evidence of recent sea turtle nesting activity reported in IRF’s 2001
Resource Characterization. However, during subsequent site visits, IRF scientists have
observed turtle nesting pits, for example, along the north shore beach zone, located a few
metres inland of the vegetation line along the under-story of sea grape thickets. Unless the
responsible BVI agency, the Department of Conservation and Fisheries, carries out surveys
in the area of Jost Van Dyke and the surrounding smaller cays, over an extended period of
time, the frequency and abundance of turtle nesting at Sandy Cay will remain unknown.
A circuit of Sandy Cay was made during the May 2000 field work to look for areas
suitable for bat roosts. On the north-facing cliffs are cracks that appear suitable for fishing
bats, but while the area was briefly visited, resources did not permit an exhaustive search
at that time or in subsequent years.
The longest-running environmental data sets available for Sandy Cay are those for the
island’s land and sea birds. Beginning in 1970, bird counts have continued periodically to
the present time (see Annex B). As stated earlier in this document, the value of almost any
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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environmental monitoring programme—including the bird observations at Sandy Cay—arises
more from its longevity than from its breath or scope. Therefore, a first priority for future
environmental monitoring at Sandy Cay should be to sustain and standardise the bird
monitoring process already in place.
During the final months of 2002, Island Resources Foundation undertook a prototypic
invasive species eradication programme for Sandy Cay, the first such effort in the British
Virgin Islands. Earlier, as part of its field research at the island, IRF scientists had
concluded that Sandy Cay had a significant and growing population of black or tree rats
(Rattus rattus), and their presence was having a negative effect on the island’s ecosystem.
With the support of Laurance Rockefeller, an IRF team was assembled and a bait grid
established for the entire island, which was maintained and monitored until there was no
further evidence of bait consumption by rats (Varnham, 2003).
Because there was a risk of rats returning to the island from visiting pleasure boats, a
longer-term monitoring programme was put in place by IRF, under the leadership of project
team leader, Jean-Pierre Bacle. This programme should continue under Sandy Cay’s new
management in order to ensure that its positive impact on the island’s ecosystem
(especially its bird population) continues.
The present use of Sandy Cay by visiting boaters does not seem to have significantly
impacted biodiversity values. However, during the nesting season, along the eastern cliffs,
potential damage may occur if visitors stray from the main trail to have a closer view of the
sea bird colonies. Visitors should remain on the trail at all times. Additionally, damage to
cacti by visitors to the island has been observed by Island Resources Foundation staff
during field work.
During Laurance Rockefeller’s final decade of stewardship, he had become increasingly
concerned about escalating user pressures at Sandy Cay and had therefore initiated a
seven-year programme of planning for the island’s future custodianship and continuing, but
sustainable public use.
Access to the island is somewhat restricted by three natural agents:
(1) the unpredictable but ubiquitous presence of mosquito and sand fly populations,
which particularly limits visitation to the island’s centre,
(2) the impact of heavy seas during much of the year that often makes it a challenge,
if not impossible, to beach dinghies and offload recreational supplies and
refreshments, and
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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(3) the nature of the island’s anchorage, which is not protected enough for convenient
overnight stays.
Of course, since visitation to the island is predicated on transport to the site via boat,
this factor alone has been and will continue to be the primary controlling and controllable
element in visitor management at Sandy Cay.
Some indication of the number of boats and visitors calling at Sandy Cay over the last
35 years can be discerned from Annex C, which presents incidental and occasional data on
boat arrivals and visitor presence from the 1970s through the end of 2007. While useful as
an index of visitation to the island, these data do not present a complete picture, e.g., size
of vessels is not indicated, time of day of recording is not always available. Future attempts
to manage visitation at Sandy Cay (whether regulation of numbers, seasonality restrictions,
or altering visitor behaviour) will undoubtedly be shaped by an analysis of past visitation.
Therefore, it is important to continue to build on and grow the exceptional Sandy Cay
visitation records already available.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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[The information provided in this sub-section is based on the written instructions of Roy Thomas
to the Sandy Cay caretaker and on the eight years of Sandy Cay experience of IRF’s Jean-Pierre
Bacle.]
Prior to implementation of an elaborate planting programme begun in the late 1960s,
only five coconut palms were recorded on Sandy Cay; by 1988, a total of 184 coconuts had
been established. After Hurricanes Hugo (1989) and Marilyn (1995), only 104 coconut
palms survived, while the latest survey, dating to February 2006, recorded 89 coconut palm
trees. Several self-sown seedlings were also noted but not included in the count. These
seedlings may have propagated directly from seeds of nearby mature palms or from
coconut seeds that drifted ashore via currents and heavy seas. In the future, it is strongly
recommended that such seedlings be closely monitored as they remain the only method of
self propagation.
Although coconut palms are non-native to the island, they have long been established
and are now considered an integral part of the natural landscape. Indeed, Sandy Cay’s
palms and pristine beaches have become one of the BVI’s signature landmarks.
The palms on Sandy Cay have periodically shown signs of manganese deficiency, which
can affect the trees’ newly emerging leaves by causing yellowing and necrosis between
veins and the reduction of leaf size. The lack of nutrients in the palms’ normally sandy
substrate is the underlying problem, and in order to enhance health and growth, Sandy
Cay’s palms have been fertilised on a regular basis, on average, once every two years.
The application of fertiliser at Sandy Cay has been fine-tuned by experimenting with
different methods over the years. The use of spikes of condensed fertiliser is now the
preferred method. The advantages of this product include convenience of purchase and
shipment (one 40-lb. case versus six 50-lb. bags) and ease of applying the fertiliser into the
soil through the mat of organic debris under the palms.
There are 125 spikes in a case and 89 palm trees on the island, which means that one
case provides one spike per palm with a second spike for the largest palms. To apply the
fertiliser, the spike is first broken into two or three pieces; then, using a mattock, a shallow
hole is dug about three feet out from the bowl of the tree. A piece of the palm spike is
inserted and the hole then covered. Remaining pieces of the spike are ―planted‖ around
other sides of the palm.
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In 2005 Manganese Spike #30190 was employed for fertilising, followed in 2006 and
thereafter by use of Palm Maintenance Spike #30193. All spikes should be used during a
single application cycle; none of the left-over spikes should be stored as they are
deliquescent. Details of this product are available by accessing the web site
www.lutscorp.com.
Coconut trees are regularly damaged or lost during intense storms and shoreline
erosion cycles. A census of the coconut population, including seedlings, should be
undertaken during each fertilisation phase. A more detailed survey of the coconut
population should be considered, but if resources for a more detailed survey are not
available, the survey could be limited to a sample of the population. Measurements should
include height and width to assess growth rates over time. All seedlings should be recorded
and monitored.
The Sandy Cay Resource Characterization recorded 87 species of plants present on the
island (IRF, 2001b). A number of these species occur in limited numbers, albeit some of
them may be more common on other islands. To ensure their survival and longevity on
Sandy Cay, regular monitoring will be required.
(Coccothrinax alta). Just a few specimens of this palm are found on the
island. One specimen is located along the southeastern edge of the salt pond. Others,
consisting of a few seedlings, are located on the northeast corner of the island adjacent to
the foot of the walking trail. These palms are classified as locally uncommon. Monitoring
should include an official count, with height and width measurements.
. Five species of cactus inhabit the island: Melocactus intortus, Pilosocereus
royenii, Opuntia repens, O. dillenii, and O. rubescens. Of the five, the tree cactus (Opuntia
rubescens) and the prickly pear (Opuntia dillenii) are the most uncommon. The tree cactus
occurs only along the northeast cliffs. It is distinguishable by its elongated pads, numerous
spines, and tree-like trunk. No official count has been made, but IRF estimates that about
six to eight could be scattered in this area. Although drought-, wind-, and salt-tolerant, this
cactus species exhibits a slow growth rate, and propagation by seed is slow and difficult.
The well-known prickly pear cactus is much less frequent on Sandy Cay. A few can be
found along the trail that follows the sand berm. Natural propagation is very slow, but
could be improved by taking cuttings of the pads at the joint and replanting.
(Pisonia subcordata). Although only one mature loblolly exists on the island, it
is quite common in other dry Eastern Caribbean forests. Its distinctively smooth and light
trunk and exposed root system contribute to a very pleasing appearance. The loblolly is
one of the few species capable of attaining significant size on very dry sites. When
flowering, it is a main attraction for insects, particularly bees. Because of its size and
esthetics, the loblolly is frequently visited by persons walking the trail.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 11
(Ficus citrifolia). Of all the trees on the
island, the fig tree certainly has the most interesting
growth form with its numerous snakelike aerial roots
growing downward from the limbs and its massive
buttressed trunk with huge surface roots spreading in
all directions. The IRF vegetation survey recorded two
mature fig trees at both ends of the island; however,
the one on the eastern rocky ridge succumbed to
insect and fungus infestation in 2006. The remaining
fig tree, situated at the trail head, is a major attraction
for visitors, but, unfortunately, it is currently afflicted
by a fungal disease.
(Plumeria alba). A few frangipani
stands occur along the trail side on the rocky ridge.
This species is one of the most familiar and
conspicuous plants in the dry forested areas of the
Virgin Islands. The beautiful and fragrant blooms
provide an additional attraction to visitors along the
trail.
[The information provided in this sub-section is based on the written instructions of Roy Thomas
to the Sandy Cay caretaker and on the eight years of Sandy Cay experience of IRF’s Jean-Pierre
Bacle.]
The Sandy Cay trail crosses two types of terrain. The longest section crosses the
lowland area of the island. Here, the trail follows a mostly sandy berm lined with coconut
palms and dry coastal vegetation. The shorter uphill trail traverses the rocky ridge, an
environment dominated by cactus scrub and open grass vegetation. Trail maintenance
involves three major activities:
(a)
[This task is currently the responsibility of the caretaker.]
(b)
[At present, incidental pruning is carried out by the caretaker, while more
comprehensive pruning is carried out once or twice a year by Chris Thomas of
Resortscapes, assisted by IRF personnel and the caretaker.]
(c)
[The caretaker has been trained to carry out periodic termite control activities, which
are periodically supplemented by visits to the island by Chris Thomas and/or Jean-
Pierre Bacle.]
In December of 2006, some of the
ashes of the late Edward L. Towle,
founder of Island Resources Foun-
dation, were buried under the
loblolly tree on Sandy Cay, an
island Dr. Towle had studied and
helped to conserve. A small plaque
with Dr. Towle’s name and dates
was placed at the site.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 12
The trail bed along the lowland section of the island should be cleared of vegetation so
that two people can walk side by side on the path, an area approximately four-feet wide.
The upland area is more rugged and rocky and therefore better suited for a narrower trail
(approximately two-feet wide), which allows single-file hiking. Specific tasks for trail bed
maintenance include:
Lilies that have migrated onto the trail bed should be dug up (using a
pointed shovel) and replanted in trail areas that are free of lilies.
Vines that encroach over the trail should be removed by pulling or digging
them up with a mattock.
Clumps of grass and other plants that may have encroached onto the trail
bed should be dug up and removed. A ―string trimmer‖ (also known as a
weed wacker) can be used to cut thick expanses of grass such as the
guinea grass along the upland trail.
Palm fronds, fallen branches, and other debris from the trail should be
collected and then deposited out of site in the interior woodlands.
Trash left by visitors should be picked up, bagged and removed from the
island.
Periodic pruning of the trail corridor is necessary to ensure passage and to enhance the
beauty of the landscape. In certain cases, pruning is also helpful to maintain plant health
and to improve the quality of flowers and foliage.
. Pruning can be done with just three basic tools:
1) Pruning shears (or hand pruners) can be used to cut small stems, up to ½ to ¾
inches in diameter. Scissor-type shears make cleaner cuts than anvil-type
shears, which crush stems.
2) Lopping shears (or loppers) have long handles, which increase the user’s reach
and leverage. They are effective for cutting large stems, up to 1½ inches in
diameter, particularly shrubs and young trees.
3) Pruning saws, with their curved blades that cut as the user pulls them across
branches, should be utilised for cutting larger branches. Some saws are
available with long pole handles for pruning tree limbs from the ground.
Blades of all tools should be sharpened before use, dried after use, and frequently oiled
to prevent rust. Additional information on pruning tools and associated trail maintenance
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 13
tools is available by accessing the web sites of suppliers such as the following: Forestry
Suppliers, Inc. www.forestry-suppliers.com and Ben Meadows www.benmeadows.com.
. Hand pruners should be used to judiciously prune back vegetation
that encroaches onto the trail. If this is cut back two or more feet, it will allow space for re-
growth and lessen the frequency of this task. All pruning cuts should be made to a lateral
shoot or bud. Machetes should not be employed for this work as the resulting cut ends will
split and die, leaving hard spurs of dead wood that are a hazard to walkers using the trail.
Loppers are useful for branches up to 1½ inches in diameter. A sharp pruning saw is
needed for the thickest branches and for precision cuts to leave branch collars.
Pruning also helps to maintain the integrity of the main trail. Branches cut while
pruning can be used to block off side trails or weak areas of old trails.
. To prune in a way that permits tree wounds to heal, the collar at
the base of each branch should not be removed. This slight swelling, which is sometimes
difficult to see on young branches, contains cells that allow the tree to seal off the wound
from diseases. In other words, do not cut flush with the trunk but do not leave a stub
either. Cuts should be made that are perpendicular to the branch, not the trunk, so the
wound area is minimised.
. On Sandy Cay, the loblolly tree (Pisonia subcordata) and the fig tree
(Ficus citrifolia) are unique and are considered two of the special features of the island. To
enhance these sites, the competing vegetation around them should be carefully cut back.
Termite colonies play an important role in the ecology of the island in that they break
down the fallen branches and plant debris that would otherwise accumulate and be a fire
BRANCH COLLAR — A tree’s branch collar is
the attachment structure that connects a
branch to the tree trunk. It forms a “shoul-
der” or bulge at the base of the branch by
the annual production of overlapping layers
of branch and stem tissues. When branches
die back to the branch collar, the collar pre-
vents the spread of decay organisms into the
trunk as new incremental growth seals over
the wound.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 14
hazard. They are also an important source of food for a number of insect-eating birds and
lizards inhabiting the island.
After a series of hurricanes in the mid-1990s, the termite population proliferated due to
the abundance of dead wood. A policy was then established to allow nests to remain in the
interior of the island but to be eliminated from the trail corridor. This activity is currently
ongoing and part of the trail maintenance programme.
Termite control involves the use of a termite insecticide spray available from the
Garden Center on Tortola or the B.V.I. Pest Control Company. The current insecticide brand
used and recommended for future use is ORTHO HOMEDEFENCE manufactured by The
ORTHO GROUP (www.ortho.com). The product is a 1-gallon, ready-to-use insecticide spray
for residential and outdoor use only. The U.S. Environmental Protection Agency (EPA)
classifies this product under the signal word Caution on the label (see EPA’s Signal Words in
box below). Labels include signal words (Caution, Warning, and Danger) to indicate how
toxic or hazardous a product can be. Insecticide application on Sandy Cay should be
restricted to products that carry the Caution label.
The procedure is to spray newly developing nests above and along the trail corridor.
The top of the nest colony must be opened and sufficient spray used to adequately drench
through the nests. This practice is usually done three times a year depending on the
number of nests and their rate of expansion. Termite control activity is reviewed annually.
SIGNAL WORDS
Danger is the strongest signal word. If a label has the word Danger on it,
extreme care must be used. If it is used the wrong way, the user could
become ill, be blinded or even die. Danger is also used on products that
could explode if they become hot. Note: Use of these pesticides is usually
restricted to licensed professionals.
Warning is less strong than Danger, but it still means that the user could
become very sick or be seriously hurt. Warning is also used to identify
products that can easily catch fire.
Caution shows that the product could hurt the user, but is less harmful than
products with a Danger or Warning signal word. Caution is used on
products that could irritate the skin, make the user sick if fumes are
inhaled, or cause pain if the product gets in the user’s eyes.
Source: www.epa.gov
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 15
Beach erosion and accretion is a regular process on Sandy Cay. Beaches respond to the
constant dynamics of seasonal storms, particularly waves, currents, and wind. Sea level
change is an additional contributing factor. Sandy Cay beaches are not only important for
recreation and tourism, but also for wildlife activity, such as sea turtle nesting, shorebird
foraging, and as staging area for sea birds. Thus, it becomes increasingly important for
planners and managers to be able to predict how a particular beach will change—in both the
short and long term—and how change will impact wildlife and human activity.
In 2000, a beach survey was undertaken as part of the Sandy Cay Resource
Characterization (IRF, 2001b); beach profiles were created and the beach was assessed and
measured. The methodology used was developed by Dr. Gillian Cambers, who has applied
this approach in a number of countries in the Lesser Antilles, primarily because the effort
requires little technical expertise, complicated equipment or intensive labour (Cambers,
1993).
As part of a feasibility exercise in 2004, an IRF team measured beach profiles at three
Sandy Cay locations using the Chambers methodology described below. Although a
comprehensive beach monitoring programme was not fully implemented under the Sandy
Cay project, such a programme should be considered as part of the island’s long-term
monitoring and research activities.
The development of a beach monitoring programme has been described in OECS-
NRMU’s Beach Monitoring Manual (Cambers, 1993). The primary steps outlined by Cambers
can be summarised as follows:
Indentify the persons who are to conduct the beach monitoring and how much
time can be allocated for this work.
Establish which beach section and how many beach profiles should be
measured for monitoring.
[Based on its 2004 feasibility study, IRF recommends that three profiles are
adequate for Sandy Cay: one along the south shore, one along the southwest
sand spit, and one along the west shore.]
Establish a time estimate to carry out the beach profiling.
[Based on IRF’s beach survey work at Sandy Cay in September of 2004, it is
estimated that each profile can be completed in approximately 20-30 minutes,
depending on the length of the profile and experience of the survey team.]
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 16
Develop a schedule for beach measurement work. It is recommended that
each site should be measured at least four times a year (every three months);
however, twice a year reflecting summer and winter conditions should be the
minimum if time and labour are limited. Additional measurements should be
made after a severe storm or hurricane.
The following items are required for field measurements: metric tape measure, Abney
level (clinometers), range pole, compass, GPS unit, spray paint (or markers), note pad and
camera. The survey requires a minimum of two persons to manipulate the equipment and
range poles. Most items are available through suppliers such as: Forestry Suppliers, Inc.
www.forestry-suppliers.com and Ben Meadows www.benmeadows.com.
The method involves measuring the beach width and slope along a specific line across
the beach and returning to that same line for regular monitoring. Each start point should be
referenced by a permanent marker and GPS. The orientation of the profile should be
perpendicular to the shoreline. A compass reading should be taken to determine the
bearing of the profile.
based on Cambers, 1993, and IRF’s beach profiling at Sandy Cay in September, 2004
(a) On arrival at the beach site, locate the reference mark. The reference mark could
be a spray paint mark or a permanent tag located on a tree.
(b) Lay out the profile in segments, place a ranging pole at each break of slope, and
ensure that the line of the profile follows the fixed orientation. The end point of
the profile is the offshore step, near the wave breakpoint, where there is a drop or
break of slope. If no offshore step exists on a particular survey date, and/or the
wave conditions are too rough, the profile should be continued as far into the
shallow water as possible.
(c) Measure the vertical distance from the top of the reference point to the ground
level with the tape measure. Measure to the nearest cm. All measurements
should be recorded in metric units in order to maintain consistency with IRF’s
earlier beach profiling records for Sandy Cay.
(d) Measure the observer’s eye level on the ranging pole. Place the marked ranging
pole at the first break of slope. Stand by the reference mark and, using the
Abney level, sight onto the observer’s eye level on the ranging pole.
(e) Record the segment slope in degrees and minutes, to the nearest ten minutes.
Always record whether it is a plus or minus slope (plus is uphill slope, minus is
downhill slope).
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 17
(f) Measure the ground distance from the base of the reference point to the first
ranging pole with the tape measure, to the nearest cm; record this measurement
on data form.
(g) The observer then proceeds to the first break of slope and sights onto the marked
ranging pole which has been placed at the second break of slope and repeats the
process. This is continued until the end point of the profile, see step (b).
(h) Ensure all measurements are recorded clearly. See completed data forms from
IRF’s 2004 beach survey on Sandy Cay in Annex D.
(i) Record on the data sheet under observations anything else of interest, such as
evidence of storms or uprooted trees; take photographs if necessary.
Beach profiles can be analysed by plotting the data accurately onto graph paper. The
area under the profile can be measured either with a planimeter or by using simple
trigonometry. This exercise would provide a comparison of the beach profile from one
season to another, as well as an assessment of the volume of sediments that have eroded
or accumulated.
Sandy Cay is a known habitat for sea turtles, particularly the endangered hawksbill
turtle (Eretmochelys imbricate). Sea turtle nesting on Sandy Cay was first noted in the
mid-1980s, with hawksbill, green (Chelonia mydas) and, to a lesser extent, leatherback
turtles (Dermochelys coriacea) returning seasonally (Eckert et al., 1992). Eckert (1992)
noted green and hawksbill turtle tracks (from a pre-1988 aerial survey) on Sandy Cay, and
later discovered a hawksbill nest on June 2 and June 9, 1992. Lettsome also reported
leatherback turtle nesting on Sandy Cay, an event considered rare in occurrence.
Since the early twenty-first century, many instances of turtle activity at Sandy Cay
have been recorded and documented in IRF’s site visit reports (see Annex F). Active nest
pits were observed on at least two occasions (September 21, 2004 and December 9, 2006).
Both nests were uncovered by heavy surf-induced erosion, and each clutch contained at
least a dozen eggs. The 9/21/04 observation included a few hatchlings. Based on photos
and field notes shared with Dr. Lianna Jarecki (HLSCC), the hatchlings were later identified
as hawksbill.
To date, turtle monitoring on Sandy Cay is limited to qualitative observations such as
presence and size of active nests and non-active pits. Species have been identified
whenever possible.
A more detailed monitoring programme should be considered in the future, in
collaboration with the Conservation and Fisheries Department’s sea turtle monitoring
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 18
programme. Turtle monitoring forms for beach surveillance are available from the
Department (see Annex E).
Monitoring activity on Sandy Cay should focus on the peak nesting period from July to
January. Ideally, monitoring should encompass two day-visits per week during the peak
season. Once tracks and nest pits have been identified and counted, then follow-up night
visits, approximately 10-15 days later, can be undertaken to begin tagging and to carry out
morphometric measurements. In subsequent years, monitoring, tagging and sampling
should continue during the peak nesting period.
Sandy Cay, an undeveloped, protected area in the rapidly developing Virgin Islands,
holds great value for in situ species conservation and environmental education. Long-term
monitoring of sea turtle nesting on the island will enhance the importance of the island as a
site for habitat preservation.
HAWKSBILL TURTLE. According to Eckert (1992), hawksbill turtles
are the most frequent nesters in the British Virgin Islands. They are
likely to lay 4 to 6 clutches per year at intervals of 14-15 days. The
majority of nesting in the northern cays, including Sandy Cay, occurs
from July to January, with November being the peak laying month.
GREEN TURTLE (Chelonia mydas). The green turtle prefers nesting
in open, wide beach platforms with limited rock, debris and
vegetation (Eckert et al., 1992). The common feeding grounds of
the green turtle are lush meadows of coastal seagrass, such as
Thalassia, Halodule, and Syringodium. Since seagrass beds are
notably absent in the waters surrounding Sandy Cay, this partially
explains why the species is rarely seen there.
LEATHERBACK TURTLE (Dermochelys coriacea). The leatherback
turtle, known locally as the trunk turtle, is the largest of all turtles,
often weighing between 300-500 kg (Eckert et al., 1992).
Leatherbacks have used Sandy Cay on rare occasions. It has been
noted that the main Sandy Cay beach represents a “relatively
classic” leatherback nesting site due to its profile and
unencumbered deep-water access. However, since the beach is
wide in some places with moderate slope, the heavy leatherback
may also find nesting at Sandy Cay too cumbersome.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 19
Roy Thomas was the first to record bird sightings at Sandy Cay while engaged in his
primary responsibilities at the island. His record on bird observations dates back to January
30, 1970, at which time he listed 11 species. In most of his subsequent trips to the island,
Roy Thomas continued the task of recording birds; the activity was supplemented by IRF
observers beginning in 2000 and eventually assumed by the IRF monitoring team.
Recording bird sightings is now traditionally carried out by IRF staff and by other visiting
scientists and naturalists.
To date, close to four decades of Sandy Cay bird records are available. A total of 54
species of birds have been recorded as a result of approximately 70 trips to the island that
have included bird observations (see Annex B). These data sets are valuable information
that not only reflect the wildlife condition of the island, but also provide an assessment of
different habitat types.
Bird observation on Sandy Cay has not followed a standard survey protocol such as the
―transect count‖ or ―point count‖ methods (see below). Originally, bird observations were
taken as an added task to other caretaking and horticultural activity at Sandy Cay. On most
visits, due to logistic limitations and management priorities, observations were not targeted
for peak periods of bird activity, which usually occurs within the first hour of sunrise and
before dusk.
Current bird monitoring normally focuses on a listing of species observed, their relative
abundance (counts), and other general observations such as nesting and foraging activities.
It is usually the first task undertaken upon arrival at the island. Binoculars of 7 x 35 or
higher magnification, a bird guide book, and note pad are the essential tools.
Bird monitoring has focused on all the main habitats of the island, specifically:
(a) Trail loop habitats,
(b) salt pond habitats, and
(c) the shoreline.
Here, the observer slowly walks the entire loop that crosses the two main habitat types.
The lowland area, lined with palm trees and coastal woodland, is an important habitat that
is usually frequented by perching birds of the Passeriforme order. Bananaquits, warblers,
pigeons and doves are frequently seen nesting along this habitat.
The upland ridge, dominated with cactus scrub vegetation and grasses, is highlighted
by rock cliff coastline that attracts a host of sea birds. Although many sea bird species
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 20
stage and forage along these cliffs, some that frequently nest are: laughing gull (Larus
atricilla), bridle tern (Sterna anaethetus), and red-billed tropicbird (Phaethon aethereus).
During nesting season, bird observations must be done with extreme care in order to
minimise disturbance.
The wetland mangrove and intermittent pond system is an important habitat that
covers nearly half of the island. During the rainy season and after tropical storms and
intense rain showers, it is particularly important to examine the pond system as it attracts
waterfowl and wading birds. The white-cheeked pintail (Anas bahamensis) frequently nests
and forages in this habitat. Yellow warblers (Dendroica petechia), which tend to inhabit the
edges of the mangrove wetland, were found to be unusually common on the island,
probably owing to the abundance of mangrove habitat.
Bird activity along the shoreline can be monitored by standing at a strategic location or
by slowly walking a segment of the shoreline while taking care to minimise disturbance. All
seabirds flying over or foraging the shallow waters surrounding the island are recorded.
This zone encompasses an area of up to 100 metres offshore. Shore birds
(Charadriiformes) and herons (Cicoiiformes) frequently forage the beaches and its shallow
waters. The north shore is particularly important because it includes a shallow inter-tidal
zone composed of beach rock. This area, comprising the mostly cobble beach, is frequented
by a variety of shore birds, wading birds and herons, namely: American oystercather
(Haematopus palliates), semipalmated plover (Charadrius semipalmatus), semipalmated
sandpiper (Calidris himantopus), wilson’s plover (Charadrius wilsonia), ruddy turnstone
(Arearia interpres), and yellow-crowned night heron (Nyctanassa violacea).
The two most common bird census methods—used to determine species presence,
relative abundance, and distribution—are (a) the point count and (b) the transect count.
More details describing these methods are detailed in Ralph et al., 1993 and Wunderle,
1994. On Sandy Cay, the transect method count would be adequate along trail and beach
segments, while the point count method would be best for the interior salt pond and some
areas along the beach.
The transect method involves slowly walking through or along a habitat type that
permits the observer to concentrate on the avifauna without being hampered by thick
vegetation and/or insecure footing. Transect censuses can be of many types, such as: (i)
line transects without distance estimates, (ii) variable-distance line transects, and (iii) strip
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 21
transects. For a detail explanation and examples of these methods, see Census Methods for
Caribbean Land Birds by J. M. Wonderle, Jr. (1994).
Point counts are one of the most popular methods for surveying bird distribution and
monitoring populations. The method can be used to study yearly changes in populations at
fixed points, differences in species composition between habitats, and abundance of
different species.
Point counts involve an observer standing in one location for a fixed time period and
recording all birds detected by sight or sound within a designated radius. The length of the
radius depends on the size of the habitat, visual limit or obstruction, and general avifaunal
activity. The key is to apply a consistent methodology from site to site and from one season
to the next.
The Sandy Cay invasive species programme began in 2002 with the launch of a rat
eradication project, the first such invasive species control effort in the British Virgin Islands.
Following the successful removal of rats (Rattus rattus), a long-term monitoring programme
was established to prevent rats from repopulating the island. With the support of the Estate
of Laurance S. Rockefeller, this monitoring effort is currently carried out by a local
environmental NGO, the Jost Van Dykes Preservation Society, with IRF providing oversight.
Sixteen permanent bait stations have been established primarily along the edge of the
island (see Figure 1 of the February 2004 IRF Field Trip Report found in Annex F of this
document). Each station contains a small amount of bait (see Bait Selection box below).
Stations are constructed of heavy-duty plastic and have been strategically set-up to
minimise access by non-target species and to remain out-of-sight to those walking the
island. Basic monitoring activity is currently carried out by the Sandy Cay caretaker from
Jost Van Dyke. It involves a visit to the island every five to seven weeks to refill the bait
stations and to look for any signs of rat activity. Detailed monitoring tasks include:
Stations need to be checked for damage to the bait and refilled if necessary;
vegetation around the station should be trimmed.
Every three to four months the bait should be entirely replaced due to deterioration
after exposure to heat, humidity, and wind-driven rain.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 22
Damaged or deteriorated bait should be put in plastic bags and taken off the island,
for incineration if possible.
Droppings need to be identified since missing bait coupled with the presence of rat
droppings are critical indications that rats are present. Personnel checking the
stations should be able to identify and differentiate between rat, crab and cockroach
droppings (see Identifying Droppings box below).
Some stations will be found empty except for crab droppings. When this occurs, the
surrounding area needs to be checked (e.g., overhanging branches) to determine
how the crabs have secured entry. If the access point cannot be identified and crabs
continue to remove bait, the station may have to be relocated or redesigned to
discourage the crabs.
BAIT SELECTION
Most of the available poisons for rat
eradication are anticoagulants in the
form of blocs. Anticoagulants are pre-
ferred because they can be used effec-
tively in low concentrations; additionally,
there is an antidote (vitamin K) available.
Secondary hazards are usually lower
than for acute toxicants.
The rodenticide used by IRF during
the rat eradication phase at Sandy Cay
was “brodicafoum”, an anticoagulant
used in the majority of successful rat
eradication programmes. It comes in
small wax blocks containing 0.005% of
brodicafoum, and it is highly effective at
small doses (Bacle et al, 2002).
A local provider has been identified
for these supplies. Contact BVI Pest
Control at bvipest@surfbvi.com.
INDENTIFYING DROPPINGS
Big roach droppings can look like
mouse or young rat droppings, but are
relatively shorter and squatter and have
ridges down the sides. Rat droppings
are about one cm long and are usually
cigar-shaped with rounded, tapering
ends. Occasionally, one of the ends is
pointed. They are made of lots of little
fragments of vegetation and small shiny
pieces of insect exoskeleton. If the bait
has been consumed, the droppings have
a more uniform consistency and are blue
and waxy. Crab droppings are the most
likely to be confused with rat droppings
as they can be similar in size. The key
differences are that crab droppings are
cylindrical, rather than tapered, and
have flat ends.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 23
In addition to checking the permanent bait stations, monitoring personnel should
investigate the surroundings to look for other signs of rat activity, such as:
Evidence of gnawing (tooth marks) on fruits, branches and fruits;
Evidence of fresh foot prints in soft mud (check the salt pond area);
Evidence of narrow trails in the sea purslane vegetative cover (salt pond area);
Evidence of rats’ resting place (in ground or tree cavities).
Once a year, overnight monitoring is recommended to confirm that rats are absent.
This is done by setting up 6 to 12 baited snap traps in areas where rats would likely
reinvade the island. Snap traps should be setup just before dusk and removed at dawn to
avoid non-target species. At least half of the snap traps should be tied to lower tree
branches in order to limit hermit crab access.
The issue of what to do about Sandy Cay’s
guinea grass (Panicum maximum) is an ongoing
one at the island. The only patch of guinea
grass grows in the area of the rocky ridge on
both sides of the trail. A few years ago, it was
growing only on one side of the trail. That
patch has expanded somewhat inland, but its
progression is limited by surrounding trees.
Guinea grass does not do well under shade.
In certain areas, guinea grass is considered
a suitable plant to stop erosion on slopes be-
cause it has dense roots while providing valuable fodder. On the other hand, it is an exotic
weed that suppresses or displaces local plants, especially other native grasses that provide
better habitat and supply more seeds to birds. Guinea grass also provides a good habitat
for rodents such as rats.
Guinea grass is not easy to eradicate without the application of herbicides or by up-
rooting the plant, which is very time consuming. An alternative is to physically trample the
clumps of guinea grass and cover the clump with a thick dark sheet of plastic or dark
canvas. The dark cover is then anchored to the ground by heavy rocks or pegs. With time,
the heat build-up under the cover will burn the plant dry. This approach is much more
environmentally sound but should be tested for its efficiency.
GUINEA GRASS is a tall clumping grass
that can grow up to two metres tall. It is a
native plant from Africa and was introduced
to Caribbean islands as a source of animal
fodder. It does well in exposed areas and
can survive long dry spells and quick-moving
fires that do not harm the underground root
system.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 24
Roy Thomas first recorded information on visitation to the island, beginning in 1970,
and during IRF’s periodic field trips to Sandy Cay since 2000, data has continued to be
collected on the overall number of visitors. Additionally, off-island observers have provided
boat counts for IRF, particularly in the years 2001-2002. Although the methodology
employed has not followed a uniform survey protocol, the information is nevertheless very
useful in evaluating boat arrivals and visitor presence (see Annex C).
At the present time, whenever possible, IRF staffers visiting Sandy Cay record three
categories of visitor use:
(a) . The busiest anchoring period is from 11 am to 2 pm.
During that period, the observer records the maximum number of anchored
boats in one sighting. If desired, the observer can make additional
sightings (e.g., at every hour), but only the sighting with the maximum
count is recorded. The reason for this approach is to avoid double counting
the same boats.
(b) . Beach visitors include those persons physically on the beach
and those swimming and snorkeling in the shallow waters. A count of
dinghies and sea kayaks is usually included in the observations. These
crafts may be in the waters or lying on the beach. Similar to item (a)
above, the observer records the maximum number of persons using the
beach in one sighting.
(c) . The observer records visitors walking the trail on a
continuous basis whenever he/she can make these observations while
attending to other duties on the island. Since walkers rarely walk the trail a
second time, the chance of a double count is incidental.
In order to secure a fuller profile of visitor use at Sandy Cay, a more systematic and
uniform survey protocol is required. This would necessitate that the observer spend a
longer period of time engaged in this particular activity during peak and non-peak hours of
the day, with consistent times used for observation. Additional information useful in
assessing carrying-capacity strategies for Sandy Cay might include data on the size of boats
at Sandy Cay and the approximate number of passengers on the larger tour vessels and
how many of the guests on the tour boats go ashore at Sandy Cay.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 25
Bacle, J.P. 2008. Sandy Cay Field Trip (March 10, 2008). Island Resources Foundation.
Bacle, J.P. 2007a. Sandy Cay Field Trips: Semi-annual Report, January – June, 2007.
Island Resources Foundation.
Bacle, J.P. 2007b. Sandy Cay Field Trips: Semi-annual Report, July – December, 2007.
Island Resources Foundation.
Bacle, J.P. 2006. Sandy Cay Field Trips: Annual Report for 2006. Island Resources
Foundation.
Bacle, J.P. 2005. Sandy Cay Field Trips: Annual Report for 2005. Island Resources
Foundation.
Bacle, J.P. 2004a. Report of Sandy Cay Field Trips, February 2004. Island Resources
Foundation.
Bacle, J.P. 2004b. Report of Sandy Cay Field Trips, May 30, June 7, and September 21,
2004. Island Resources Foundation.
Bacle, J.P., K. Lindsay and R. Power. 2003. Semi-annual Report of Site Visits (July 2003).
Island Resources Foundation.
Bacle, J.P., E. Towle., and K. Varnham. 2002. Environmental Impact Assessment for Rat
Eradication Program, Sandy Cay, British Virgin Islands. Island Resources Foundation.
BVI National Parks Trust. March 2007. Sandy Cay Habitat Management Area:
Management Plan.
Cambers, G. 1993. Manual on Beach Monitoring. Organisation of Eastern Caribbean
States–Natural Resources Management Unit (OECS-NRMU). St. Lucia.
Dressler, W. and J.P. Bacle. 2000a. Sandy Cay Field Trip Report, May 24, 25, and 26,
2000. Island Resources Foundation.
Dressler, W. and J.P. Bacle. 2000b. Sandy Cay Field Trip Report, May 31, 2000. Island
Resources Foundation.
Eckert, K., J. Overing, and B. Lettsome. 1992. WIDECAST Sea Turtle Recovery Action Plan
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Plan. Prepared for Laurance S. Rockefeller, owner of Sandy Cay.
Island Resources Foundation. 2001b. The Sandy Cay (BVI) Ecosystem – A Resource
Characterization. Prepared for Laurance S. Rockefeller, owner of Sandy Cay.
Little, E.L., R.O. Woodbury, and F.H. Wadsworth. 1974. Trees of Puerto Rico and the Virgin
Islands. U.S. Dept. of Agriculture, Forest Service, Washington D.C.
Pascoe, Z. 2005. Report of Sandy Cay Field Trips, January 3 and 13, 2005. Island
Resources Foundation.
Ralph, C.J., G.R. Geupel, P. Pyle, T.E. Martin, and D. F. DeSante. 1993. Handbook of Field
Methods for Monitoring Land Birds. Gen. Tech. Rep. PSW-GTR-144. Albany, CA:
Pacific Southwest Research Station, Forest Service, U.S. Department of Agriculture.
Teytaud, A. 1983. Study of Management Alternatives for the Proposed Protected Areas at
Sandy Cay and Norman Island. A report prepared for the BVI Parks and Protected
Areas Project.
Towle, E. and J.P. Bacle. Sandy Cay Field Trip Report for July 20-21, 2002. Report
submitted to Clayton W. Frye, Jr., Office of Laurance S. Rockefeller, by Island
Resources Foundation.
Varnham, K. 2003. Eradication of Black Rats (Rattus rattus) from Sandy Cay, British Virgin
Islands. Island Resources Foundation.
Wunderle, J.M., Jr. 1994. Census methods for Caribbean Land Birds. Gen. Tech. Rep.
SO-98. New Orleans, LA: U.S. Department of Agriculture, Forest Service, Southern
Forest Experiment Station.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 27
Format for Sandy Cay Caretaker Log Entries
SANDY CAY CARETAKER LOG ENTRIES
Instructions: Use numbers only to make log entries (do not re-write line item topics).
Use abbreviations where possible. Only use one page per day.
#1 Date
#2 Arrival time at Sandy Cay
#3 Departure time from Sandy Cay
#4 Pruning and Trimming Task
a. Upland Trail: estimated time expended
b. Inland Trail: estimated time expended
#5 Trash Pick-up Task
a. On the trail: estimated time expended
b. On the beach: estimated time expended
c. Quantity: # of trash bags filled
#6 Termite Control: # of active nests observed within the trail corridor
#7 Visitation: Boats
a. # of sail yachts counted
b. # of power yachts counted
c. # of dinghies on the beach counted
#8 Visitation: People
a. # of people counted on the beach
b. # of people counted on trail during time on island
#9 Other Observations
a. Note any damages
b. Note unusual behavior or activities
c. Record if there are signs of campers or squatters
d. Record conversations, suggestions, requests from island visitors
Take one count only at peak activity hour; record time of the count.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 29
Bird Observations at Sandy Cay, 1970 — March 2008
1/30/70 4/17/70 6/02/70 8/1970 8/29/70 12/19/70 4/09/71 4/25/71 5/28/71 8/09/71 10/05/71
Red-billed Tropicbird (Phaethon aethereus) 4 1
White-tailed Tropicbird (Phaethon lepturus)
Masked Booby (Sula dactylatra)
Brown Booby (Sula leucogaster) 2 Common 2 Common 1
Brown Pelican (Pelecanus occidentalis) Common Common 1 Common
Magnificent Frigatebird (Fregata magnificens) 6 1
Great Egret (Ardea alba) 3
Little Blue Heron (Egretta caerulea)
White-cheeked Pintail (Anas bahamensis) 3 6 *
Osprey (Pandion haliaetus)
American Kestrel (Falco sparverius) 1
Merlin (Falco columbarius) 1 1
American Oystercatcher (Haematopus palliatus)
Black-bellied Plover (Pluvialis squaterola) 1
Semipalmated Plover (Charadrius semipalmatus)
Sanderling (Calidris alba)
Laughing Gull (Larus atricilla) Common 100 + Common *
Gull-billed Tern (Sterna nilotica) Common 100 +
Royal Tern (Sterna maxima) 2
Sandwich Tern (Sterna sandvicensis)
Roseate Tern (Sterna dougallii) 1
Common Tern (Sterna hirundo)
Least Tern (Sterna antillarum) 3
Bridled Tern (Sterna anaethetus)
Sooty Tern (Sterna fuscata)
Brown Noddy (Anous stolidus) Common Common
Scaly-naped Pigeon (Columba squamosa) ** 7 1 4 Common * 5
White-crowned Pigeon (Columba leucocephala)
Zenaida Dove (Zenaida aurita) Common 3 5 * 9 Common
Common Ground-Dove (Columbina passerina) 4 2 3 7
Mangrove Cuckoo (Coccyzus minor) 1 3
Green-throated Carib (Eulampis holosericeus) 3 3 2 12 Common
Antillean Crested Hummingbird (Orthorhyncus cristatus)
Belted Kingfisher (Ceryle alcyon) 1
Caribbean Elaenia (Elaenia martinica)
Gray Kingbird (Tyrannus dominicensis) Common 3 10 5 Common
Caribbean Martin (Progne dominicensis)
Pearly-eyed Thrasher (Margarops fuscatus)
Yellow Warbler (Dendroica petechia) Common 1 6 8 Common
Prairie Warbler (Dendroica discolor)
Northern Waterthrush (Seiurus noveboracensis)
Bananaquit (Coereba flaveola) 2 9 * Common * Common
Black-faced Grassquit (Tiaris bicolor)
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 30
1/24/72 6/22/72 8/06/74 6/1983 8/20/87 6/1996 5/24/00 5/25/00 5/26/00 5/31/00 7/03/00
Greater Shearwater (Puffinus gravis)
Red-billed Tropicbird (Phaethon aethereus) 4 1 2 *
White-tailed Tropicbird (Phaethon lepturus)
Masked Booby (Sula dactylatra) 1
Brown Booby (Sula leucogaster) 2 4
Brown Pelican (Pelecanus occidentalis) 4 3 2 1 2 2
Magnificent Frigatebird (Fregata magnificens) 2 1
Great Egret (Ardea alba)
Little Blue Heron (Egretta caerulea)
White-cheeked Pintail (Anas bahamensis) 1 * 4
Osprey (Pandion haliaetus)
American Kestrel (Falco sparverius)
Merlin (Falco columbarius)
American Oystercatcher (Haematopus palliatus)
Black-bellied Plover (Pluvialis squaterola)
Semipalmated Plover (Charadrius semipalmatus)
Laughing Gull (Larus atricilla) Common
* Common 15+ * 1 * 15 *
Gull-billed Tern (Sterna nilotica)
Royal Tern (Sterna maxima) 2
Sandwich Tern (Sterna sandvicensis) 53
Roseate Tern (Sterna dougallii) 1 42
Common Tern (Sterna hirundo)
Least Tern (Sterna antillarum) 4 1
Bridled Tern (Sterna anaethetus) 6
Sooty Tern (Sterna fuscata) 4
Brown Noddy (Anous stolidus)
Scaly-naped Pigeon (Columba squamosa) ** Common 3 4 2 15 16 Common
White-crowned Pigeon (Columba leucocephala) *
Zenaida Dove (Zenaida aurita) 3 4 11 2
Common Ground-Dove (Columbina passerina) 1 2
Mangrove Cuckoo (Coccyzus minor)
Green-throated Carib (Eulampis holosericeus) 1
Antillean Crested Hummingbird (Orthorhyncus cristatus)
Belted Kingfisher (Ceryle alcyon)
Caribbean Elaenia (Elaenia martinica) 1
Gray Kingbird (Tyrannus dominicensis) 4 1 3 3
Caribbean Martin (Progne dominicensis)
Pearly-eyed Thrasher (Margarops fuscatus)
Yellow Warbler (Dendroica petechia) Common 6 1 3 50 + 17 Common*
Prairie Warbler (Dendroica discolor)
Northern Waterthrush (Seiurus noveboracensis) 3
Bananaquit (Coereba flaveola) 4 * 1 Common 1 3 * 13 * Common
Black-faced Grassquit (Tiaris bicolor)
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 31
3/24/01 1/26/02 7/10/02 7/20/02 7/21/02 11/12/02 11/13/02 11/19/02 11/20/02 11/22/02 11/23/02
Red-billed Tropicbird (Phaethon aethereus)
White-tailed Tropicbird (Phaethon lepturus) 1 1 3 3
Masked Booby (Sula dactylatra)
Brown Booby (Sula leucogaster) 11 2 3 1 7 5 4 2 6
Brown Pelican (Pelecanus occidentalis) 14 6 3 4 3 6 4 4 6
Magnificent Frigatebird (Fregata magnificens) 1 4 3 14 1 3 4
Great Egret (Ardea alba)
Little Blue Heron (Egretta caerulea)
White-cheeked Pintail (Anas bahamensis)
Osprey (Pandion haliaetus)
American Kestrel (Falco sparverius) 1
Merlin (Falco columbarius)
American Oystercatcher (Haematopus palliates) 2
Black-bellied Plover (Pluvialis squaterola) 5
Semipalmated Plover (Charadrius semipalmatus) 6 6 6 6
Sanderling (Calidris alba)
Laughing Gull (Larus atricilla) 12 36 25
Gull-billed Tern (Sterna nilotica)
Royal Tern (Sterna maxima) 8 1 2 2
Sandwich Tern (Sterna sandvicensis)
Roseate Tern (Sterna dougallii) 3 12 8
Common Tern (Sterna hirundo) 7 12 10
Least Tern (Sterna antillarum) 11 6 4
Bridled Tern (Sterna anaethetus) 3
Sooty Tern (Sterna fuscata) 2
Brown Noddy (Anous stolidus) 2
Scaly-naped Pigeon (Columba squamosa) ** 9 5 3 2 1 2
White-crowned Pigeon (Columba leucocephala) 5
Zenaida Dove (Zenaida aurita) 2 4 2 1
Common Ground-Dove (Columbina passerina)
Mangrove Cuckoo (Coccyzus minor)
Green-throated Carib (Eulampis holosericeus) 1 1
Antillean Crested Hummingbird (Orthorhyncus cristatus)
1 2
Belted Kingfisher (Ceryle alcyon) 2
Caribbean Elaenia (Elaenia martinica)
Gray Kingbird (Tyrannus dominicensis) 3 2 2
Caribbean Martin (Progne dominicensis) 2
Pearly-eyed Thrasher (Margarops fuscatus) 1
Yellow Warbler (Dendroica petechia) 18 3 4 5 6 1 4 2 2 3
Prairie Warbler (Dendroica discolor)
Northern Waterthrush (Seiurus noveboracensis)
Bananaquit (Coereba flaveola) 5 6 1 * 8 6 4 4 2 2 4 5
Black-faced Grassquit (Tiaris bicolor)
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 32
11/24/02 12/01/02 12/2/02 12/10/02 12/12/02 1/29/03 7/02/03 2/21/04 2/22/04 2/24/04 2/28/04***
Red-billed Tropicbird (Phaethon aethereus)
White-tailed Tropicbird (Phaethon lepturus) 1 2 * 4 7 1 6 3
Masked Booby (Sula dactylatra)
Brown Booby (Sula leucogaster) 4 1 2 2 2 1 3 3 3 1
Brown Pelican (Pelecanus occidentalis) 3 2 1 3 6 1 8 4 5 3 1
Magnificent Frigatebird (Fregata magnificens) 5 2 3 4 1 3 1 2
Great Egret (Ardea alba)
Little Blue Heron (Egretta caerulea)
White-cheeked Pintail (Anas bahamensis)
Osprey (Pandion haliaetus) 1
American Kestrel (Falco sparverius) 1
Merlin (Falco columbarius)
American Oystercatcher (Haematopus palliatus) 1 2 2
Black-bellied Plover (Pluvialis squaterola)
Semipalmated Plover (Charadrius semipalmatus) 6 1 1 6 8
Sanderling (Calidris alba) 1
Laughing Gull (Larus atricilla) 7
Gull-billed Tern (Sterna nilotica)
Royal Tern (Sterna maxima)
Sandwich Tern (Sterna sandvicensis) 3
Roseate Tern (Sterna dougallii)
Common Tern (Sterna hirundo)
Least Tern (Sterna antillarum)
Bridled Tern (Sterna anaethetus)
Sooty Tern (Sterna fuscata)
Brown Noddy (Anous stolidus)
Scaly-naped Pigeon (Columba squamosa) ** 1 1 2 2 10 4 6 4 2
White-crowned Pigeon (Columba leucocephala) 1
Zenaida Dove (Zenaida aurita) 1 15 1 3 2
Common Ground-Dove (Columbina passerina)
Mangrove Cuckoo (Coccyzus minor)
Green-throated Carib (Eulampis holosericeus) 1 1
Antillean Crested Hummingbird (Orthorhyncus cristatus)
1
Belted Kingfisher (Ceryle alcyon) 1
Caribbean Elaenia (Elaenia martinica) 1
Gray Kingbird (Tyrannus dominicensis) 1 1 2 2 1
Caribbean Martin (Progne dominicensis) 2
Northern Rough-winged Swallow (Stelgidopteryx serripennis)
3
Pearly-eyed Thrasher (Margarops fuscatus)
Yellow Warbler (Dendroica petechia) 5 3 5 3 8-10 6 8 8 4
Prairie Warbler (Dendroica discolor)
Northern Waterthrush (Seiurus noveboracensis)
Bananaquit (Coereba flaveola) 6 3 4 4 2 7 18 11 12 12 9
Black-faced Grassquit (Tiaris bicolor)
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 33
5/30/04 6/07/04 9/21/04 10/31/04 12/01/04 12/02/04 1/03/05 1/13/05 2/22/05 2/23/05 9/17/05
Red-billed Tropicbird (Phaethon aethereus)
White-tailed Tropicbird (Phaethon lepturus)
Brown Booby (Sula leucogaster) 5 1 1 2 23 17 4 1 2 2
Brown Pelican (Pelecanus occidentalis) 8 5 1 4 13 Common 7 3 5 6 7
Magnificent Frigatebird (Fregata magnificens) 2 17 15 5 3 1 1
Great Egret (Ardea alba) 1
Green Heron (Butorides virescens) 1
White-cheeked Pintail (Anas bahamensis) 1 8 16 3
Osprey (Pandion haliaetus)
American Kestrel (Falco sparverius) 1
Wilson’s Polver (Charadrius wilsonia)
American Oystercatcher (Haematopus palliatus) 2
Black-bellied Plover (Pluvialis squaterola)
Semipalmated Plover (Charadrius semipalmatus) 2 5 2 1 2 4
Solitary Sandpiper (Tringa solitaria) 1
Ruddy Turnstone (Arenaria interpres) 1
Sanderling (Calidris alba) 4
Semipalmated Sandpiper (Calidris pusilla) 1
Stilt Sandpiper (Calidris himantopus) 1
Laughing Gull (Larus atricilla) 17 13 2 2
Gull-billed Tern (Sterna nilotica)
Royal Tern (Sterna maxima) 1 2 1 1 2
Sandwich Tern (Sterna sandvicensis) 8 6 1
Roseate Tern (Sterna dougallii) 8 8
Common Tern (Sterna hirundo) 2
Least Tern (Sterna antillarum)
Bridled Tern (Sterna anaethetus) 1 1
Sooty Tern (Sterna fuscata)
Brown Noddy (Anous stolidus)
Scaly-naped Pigeon (Columba squamosa) ** 5 12 ~ 8 2 4 17 15 11 13 4
White-crowned Pigeon (Columba leucocephala)
Zenaida Dove (Zenaida aurita) 15 11 * 9 3 2 2 4 6 7
Common Ground-Dove (Columbina passerina) 2 1 1
Mangrove Cuckoo (Coccyzus minor)
Green-throated Carib (Eulampis holosericeus) 1 2 4 2 3 1 7
Antillean Crested Hummingbird (Orthorhyncus cristatus)
Belted Kingfisher (Ceryle alcyon)
Caribbean Elaenia (Elaenia martinica)
Gray Kingbird (Tyrannus dominicensis) 7* 13 2 6 5 3 1 5 4 3
Caribbean Martin (Progne dominicensis) 1
Barn Swallow (Hirundo rustica) 1
Pearly-eyed Thrasher (Margarops fuscatus)
Yellow Warbler (Dendroica petechia) 23 15 21 6 9 8 2 1 7 5 12
Prairie Warbler (Dendroica discolor) 1
Bananaquit (Coereba flaveola) 16 11 * 32 14 12 11 30 15 17 21 49
Black-faced Grassquit (Tiaris bicolor) 2 1 2 1 3
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 34
12/05/05 1/08/06 2/19/06 2/22/06 6/13/06 9/23/06 12/03/06 12/09/06 2/19/07 4/28/07 6/23/07
Red-billed Tropicbird (Phaethon aethereus) 3 * 2 * 2 * 5
White-tailed Tropicbird (Phaethon lepturus) 1 3
Brown Booby (Sula leucogaster) 2 2 2 3 2 2 2 4 2 2
Brown Pelican (Pelecanus occidentalis) 5 1 6 1 5 6 2 6 3 8 4
Magnificent Frigatebird (Fregata magnificens) 2 1 4 1 1 3 2 1 2
Great Egret (Ardea alba)
Green Heron (Butorides virescens)
Yellow-crowned Night Heron (Nyctanassa violacea) 1
White-cheeked Pintail (Anas bahamensis) 2 6 3
Osprey (Pandion haliaetus)
American Kestrel (Falco sparverius) 1
Wilson’s Polver (Charadrius wilsonia) 5
American Oystercatcher (Haematopus palliatus) 2 3
Black-bellied Plover (Pluvialis squaterola)
Semipalmated Plover (Charadrius semipalmatus) 1 1 2
Solitary Sandpiper (Tringa solitaria)
Ruddy Turnstone (Arenaria interpres) 2
Sanderling (Calidris alba) 1
Semipalmated Sandpiper (Calidris pusilla) 2
Stilt Sandpiper (Calidris himantopus)
Laughing Gull (Larus atricilla) 21 * 1 6 22 *
Gull-billed Tern (Sterna nilotica)
Royal Tern (Sterna maxima) 4
Sandwich Tern (Sterna sandvicensis) 1
Roseate Tern (Sterna dougallii)
Common Tern (Sterna hirundo)
Least Tern (Sterna antillarum) 8
Bridled Tern (Sterna anaethetus) 7 *
Sooty Tern (Sterna fuscata) 30
Brown Noddy (Anous stolidus) 6 3
Scaly-naped Pigeon (Columba squamosa) ** 2 19 * 5 12 15 16 * 54 *
White-crowned Pigeon (Columba leucocephala) 10
Zenaida Dove (Zenaida aurita) 2 5 26 * 2 8 5 10 26 *
Common Ground-Dove (Columbina passerina) 1 2 1 2 1 2
Mangrove Cuckoo (Coccyzus minor) 1
Green-throated Carib (Eulampis holosericeus) 2 1 2 6 1 6 4
Belted Kingfisher (Ceryle alcyon)
Gray Kingbird (Tyrannus dominicensis) 1 8 * 7 3 2 1 1
Caribbean Martin (Progne dominicensis) 1 2
Barn Swallow (Hirundo rustica)
Pearly-eyed Thrasher (Margarops fuscatus)
Yellow Warbler (Dendroica petechia) 6 16 * 10 12 18 15 28 * 22 *
Prairie Warbler (Dendroica discolor) 8 6 7
Bananaquit (Coereba flaveola) 22 * 28 * 14 16 21 17 22 * 18 *
Black-faced Grassquit (Tiaris bicolor) 20 21 11 1 2
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 35
6/24/07 10/12/07 11/29/07 3/10/08
Red-billed Tropicbird (Phaethon aethereus) 2
White-tailed Tropicbird (Phaethon lepturus)
Brown Booby (Sula leucogaster) 1 6 6
Brown Pelican (Pelecanus occidentalis) 3 45 3 3
Magnificent Frigatebird (Fregata magnificens) 2 1 2
Great Egret (Ardea alba)
Green Heron (Butorides virescens)
Yellow-crowned Night Heron (Nyctanassa violacea) 1
White-cheeked Pintail (Anas bahamensis) 4
Osprey (Pandion haliaetus)
American Kestrel (Falco sparverius)
Wilson’s Polver (Charadrius wilsonia) 3
American Oystercatcher (Haematopus palliatus) 1 1
Black-bellied Plover (Pluvialis squaterola)
Semipalmated Plover (Charadrius semipalmatus)
Solitary Sandpiper (Tringa solitaria)
Ruddy Turnstone (Arenaria interpres)
Sanderling (Calidris alba)
Semipalmated Sandpiper (Calidris pusilla)
Stilt Sandpiper (Calidris himantopus)
Laughing Gull (Larus atricilla) 18 * 2
Gull-billed Tern (Sterna nilotica)
Royal Tern (Sterna maxima) 1
Sandwich Tern (Sterna sandvicensis) 6
Roseate Tern (Sterna dougallii) 2
Common Tern (Sterna hirundo)
Least Tern (Sterna antillarum) 2
Bridled Tern (Sterna anaethetus)
Sooty Tern (Sterna fuscata) 34
Brown Noddy (Anous stolidus)
Scaly-naped Pigeon (Columba squamosa) ** 48 * 4
White-crowned Pigeon (Columba leucocephala)
Zenaida Dove (Zenaida aurita) 27 * 1 3
Common Ground-Dove (Columbina passerina) 1 4
Mangrove Cuckoo (Coccyzus minor)
Green-throated Carib (Eulampis holosericeus) 3 2 2 1
Belted Kingfisher (Ceryle alcyon)
Gray Kingbird (Tyrannus dominicensis) 5 1 1
Caribbean Martin (Progne dominicensis)
Barn Swallow (Hirundo rustica)
Pearly-eyed Thrasher (Margarops fuscatus)
Yellow Warbler (Dendroica petechia) 18 * 12 1 10
Prairie Warbler (Dendroica discolor)
Bananaquit (Coereba flaveola) 24 * 17 24 16
Black-faced Grassquit (Tiaris bicolor)
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 36
Key to Symbols used in Tables, pages 29-35:
* Nesting reported
** First referred to as Red-necked Pigeon by James Bond
*** Mid-day observation when bird activity generally low
At least six active nests
Observed but no quantities recorded
Identification of Observers, by Date of Observation
Roy Thomas (Sandy Cay
Horticulturist)
JP Bacle (IRF)
JP Bacle W. Dressler
(IRF)
JP Bacle, C. Howell
(IRF)
JP Bacle, K. Lindsay
(IRF)
Clive Petrovic
(IRF)
Chris Thomas (Resortscapes)
Zach Pascoe (IRF)
OTHER
Observer in 1970
April. 9, 1971
Herbert Raffaele (US Fish and Wildlife Service)
April. 25, 1971
May 28, 1971
P. Alan Ketley (Caneel Bay Resort)
August 9, 1971
P. Alan Ketley
October 5, 1971
P. Alan Ketley
Observer in 1972
P. Alan Ketley
August 6, 1974
June 1983
Robert Teytaud (ECNAMP consultant)
August 20, 1987
Kevin Campbell (Caneel Bay Resort)
June 1996
May 24-25, 2000
May 26, 2000
Rowan Roy (BVI naturalist)
May 31, 2000 Judy Pierce (USVI Division of Fish and Wildlife)
July 3, 2000
Rowan Roy
March 24, 2001
January 26, 2002
July 10, 2002
July 20-21, 2002
Nov. 12-13, 2002
Nov. 19-24, 2002
Dec. 1-2, 2002
December 10, 2002
December 12, 2002
January 29, 2003
July 2, 2003
Feb. 21-22, 2004
February 24, 2004
February 28, 2004
May 30, 2004
June 7, 2004
Rob Power (HLSCC)
September 21, 2004
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 37
Roy Thomas (Sandy Cay
Horticulturist)
JP Bacle (IRF)
JP Bacle W. Dressler
(IRF)
JP Bacle, C. Howell
(IRF)
JP Bacle, K. Lindsay
(IRF)
Clive Petrovic
(IRF)
Chris Thomas (Resortscapes)
Zach Pascoe (IRF)
OTHER
October 31, 2004
Rob Power
Dec. 1-2, 2004
January 3, 2005
N. Woodfield (NPT) and Rob Power
January 13, 2005
February 22, 2005 NPT staff
February 23, 2005
September 17, 2005
December 5, 2005
January 8, 2006
February 19, 2006
February 22, 2006
June 13, 2006
September 23, 2006
December 3, 2006
December 9, 2006
February 19, 2007
April 28, 2007
June 23-24, 2007
October 12, 2007
November 29, 1007
March 10, 2008
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 39
Visitation at Sandy Cay on Selected Days, 1970 — March 2008
(Peak tourist season months, Mid-November — Mid-April, are highlighted)
Date Anchored
Boats
Persons on
Beach
Persons on
Trail
Total Persons
Observed
on Island
Observer Comments
12/29/1970 17 60 Roy Thomas
06/??/1972 5 Roy Thomas
02/10/1975 5 Roy Thomas
03/11/1977 9 40 Roy Thomas
08/07/1980 9 Roy Thomas
02/04/1981 15 100+ 100+ Roy Thomas
04/01/1981 10 Roy Thomas Anchored boats included a large, chartered square-rigger, Flying Cloud, with crew and guests numbering 70-80 persons
06/20/1982 3 Roy Thomas
05/09/1997 21 60 Roy Thomas
End Records, 1970-1997
05/24/2000 10 Wolfram Dressler, IRF
05/25/2000 14 Wolfram Dressler, IRF
05/26/2000 11 8-12 5 13-17 Wolfram Dressler, IRF
05/31/2000 2 Wolfram Dressler, IRF
End Records, 2000
03/18/2001 4
Stanley Hodge Observer at Cane Garden Bay, Tortola
03/19/2001 4
03/21/2001 5
03/24/2001 8
03/25/2001 6
03/27/2001 6
03/28/2001 11
03/29/2001 9
03/30/2001 6
03/31/2001 7
04/01/2001 3
04/02/2001 8
04/03/2001 4
04/04/2001 7
04/05/2001 8
04/07/2001 8
04/08/2001 13
04/09/2001 11
04/10/2001 7
04/11/2001 10
04/12/2001 5
04/13/2001 8
04/14/2001 23
04/15/2001 10
04/16/2001 9
04/18/2001 2
04/19/2001 16
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 40
Date Anchored
Boats
Persons on
Beach
Persons on
Trail
Total
Persons
Observed
on Island
Observer Comments
04/20/2001 13
Stanley Hodge Observer at Cane Garden Bay, Tortola
04/21/2001 5
04/23/2001 7
04/24/2001 3
04/25/2001 5
04/26/2001 10
04/27/2001 9
04/28/2001 9
04/29/2001 15
05/01/2001 5
05/02/2001 2
05/03/2001 1
05/04/2001 9
05/05/2001 5
05/08/2001 10
05/09/2001 11
05/10/2001 7
05/11/2001 4
05/12/2001 9
05/13/2001 12
05/14/2001 9
05/15/2001 4
05/16/2001 7
05/17/2001 11
05/18/2001 5
05/19/2001 7
05/20/2001 5
05/21/2001 10
05/22/2001 6
05/23/2001 3
05/24/2001 8
05/25/2001 7
05/27/2001 10
05/28/2001 4
05/31/2001 1
06/01/2001 4
06/02/2001 3
06/03/2001 6
06/04/2001 3
06/06/2001 1
06/07/2001 4
06/08/2001 7
06/09/2001 11
06/11/2001 2
06/13/2001 12
06/14/2001 11
06/15/2001 14
06/16/2001 8
06/17/2001 4
06/18/2001 2
06/19/2001 8
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 41
Date Anchored
Boats
Persons on
Beach
Persons on
Trail
Total
Persons
Observed
on Island
Observer Comments
06/20/2001 4
Stanley Hodge Observer at Cane Garden Bay, Tortola
06/21/2001 10
06/22/2001 14
06/23/2001 9
06/25/2001 6
06/26/2001 6
06/28/2001 11
06/29/2001 8
06/30/2001 4
07/02/2001 3
07/03/2001 4
07/04/2001 6
07/06/2001 3
07/07/2001 6
07/08/2001 22
07/09/2001 7
07/10/2001 6
07/11/2001 7
07/12/2001 5
07/13/2001 3
07/14/2001 14
07/16/2001 11
07/17/2001 2
07/18/2001 5
07/19/2001 3
07/20/2001 8
07/23/2001 5
07/24/2001 11
07/25/2001 4
07/26/2001 7
07/27/2001 10
07/28/2001 7
07/31/2001 4
08/01/2001 6
08/03/2001 13
08/04/2001 11
08/05/2001 15
08/06/2001 3
08/08/2001 6
08/09/2001 5
08/10/2001 10
08/11/2001 6
08/12/2001 11
08/14/2001 2
08/20/2001 6
08/21/2001 3
08/24/2001 7
08/27/2001 2
08/30/2001 2
09/05/2001 1
09/08/2001 2
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 42
Date Anchored
Boats
Persons on
Beach
Persons on
Trail
Total
Persons
Observed
on Island
Observer Comments
09/08/2001 2
Stanley Hodge Observer at Cane Garden Bay, Tortola
09/16/2001 1
09/17/2001 1
09/21/2001 2
09/27/2001 1
09/29/2001 2
10/07/2001 3
10/30/2001 2
11/02/2001
11/10/2001 3
11/11/2001 17
11/12/2001 4
11/16/2001 19
11/17/2001 7
11/18/2001 11
11/20/2001 8
11/21/2001 5
11/25/2001 4
11/26/2001 8
11/28/2001 8
11/29/2001 8
11/30/2001 9
12/04/2001 5
12/05/2001 5
12/06/2001 5
12/07/2001 9
12/08/2001 9
12/10/2001 5
12/20/2001 6
12/22/2001 6
12/27/2001 11
End Records, 2001
01/02/2002 6
Stanley Hodge Observer at Cane Garden Bay, Tortola
01/03/2002 8
01/11/2002 11
01/18/2002 12
01/19/2002 5
01/20/2002 7
01/24/2002 17
02/04/02 6 Ed Towle
02/17/2002 7
Stanley Hodge Observer at Cane Garden Bay, Tortola
02/24/2002 4
02/26/2002 8
02/27/2002 5
03/10/2002 7
03/11/2002 7
03/13/2002 4
03/14/2002 10
03/15/2002 8
03/16/2002 6
03/17/2002 9
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 43
Date Anchored
Boats
Persons on
Beach
Persons on
Trail
Total
Persons
Observed
on Island
Observer Comments
03/18/2002 6
Stanley Hodge Observer at Cane Garden Bay, Tortola
03/19/2002 6
03/20/2002 5
03/23/2002 2
03/24/2002 7
03/25/2002 11
03/29/2002 13
04/01/2002 5
04/02/2002 4
04/03/2002 4
04/04/2002 9
04/06/2002 4
04/07/2002 10
04/11/2002 6
04/13/2002 4
04/14/2002 4
04/17/2002 6
04/18/2002 6
04/20/2002 7
04/21/2002 4
04/23/2002 6
04/24/2002 5
04/26/2002 15
04/28/2002 6
04/29/2002 4
04/30/2002 5
05/01/2002 5
05/02/2002 6
05/03/2002 13
05/04/2002 6
05/06/2002 5
05/07/2002 4
05/08/2002 2
05/14/2002 4
05/15/2002 2
05/16/2002 7
05/17/2002 8
05/18/2002 2
05/29/2002 6
05/31/2002 8
07/10/02 16 15 13 28 Roy Thomas
07/20/02
11 70-75 + 12
12 94-99 Ed Towle 70-75 teenagers on beach with 8 rubber dinghies and 6 kayaks as part of Sail Caribbean commercial operation
07/21/02 13 50 7 57 Ed Towle Of those on beach, 30 were from Sail Caribbean, using 6 dinghies and 2 kayaks to access the island
End Records, 2002
02/21/04 1 Jean Pierre Bacle
02/22/04 2 8 8 Jean Pierre Bacle
02/24/04 11 21 23 44 Jean-Pierre Bacle
02/29/04 8 14 15 29 Jean-Pierre Bacle
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 44
Date Anchored
Boats
Persons on
Beach
Persons on
Trail
Total
Persons
Observed
on Island
Observer Comments
05/30/04 9 15 9 24 Jean-Pierre Bacle
06/07/04 5 11 6 17 Jean-Pierre Bacle
09/21/04 6 21 8 29 Jean-Pierre Bacle
11/30/04 7 4 4 Roy Thomas
12/01/04 18 34 34 Roy Thomas
12/02/04 16 16 16 Roy Thomas
End Records, 2004
01/03/05 8 20 4 24 Jean-Pierre Bacle
01/13/05 2 Jean-Pierre Bacle
02/22/05 5 17 7 24 Jean-Pierre Bacle
02/23/05 6 13 5 18 Jean-Pierre Bacle
09/17/05 4 22 3 25 Jean-Pierre Bacle
12/05/05 4 8 6 14 Jean-Pierre Bacle
End Records, 2005
01/08/06 8 40 35 75 Jean-Pierre Bacle
02/19/06 19 23 37 60 Jean-Pierre Bacle
02/22/06 11 29 8 37 Jean-Pierre Bacle
05/27/06 16 Clive Petrovic Off-island observation at 2 pm
06/13/06 5 13 11 24 Jean-Pierre Bacle
07/04/06 9 45 45 Jean-Pierre Bacle
07/29/06 5 5 1 6 Jean-Pierre Bacle
08/11/06 4 Clive Petrovic Off-island observation at 3 pm
08/12/06 3 13 1 14 Jean-Pierre Bacle
08/13/06 16 Clive Petrovic Off-island observation at 3 pm
08/16/06 4 50 7 57 Jean-Pierre Bacle
08/20/06 6 Clive Petrovic Off-island observation at 1 pm
08/27/06 4 Clive Petrovic Off-island observation at 3 pm
09/16/06 2 Clive Petrovic Off-island observation at 3 pm
09/23/06 3 16 3 19 Jean-Pierre Bacle
10/11/06 12 Clive Petrovic Off-island observation at 4:30 pm
12/09/06 11 35 13 48 Jean-Pierre Bacle
End Records, 2006
02/19/07 15 31 30+ 61+ Jean-Pierre Bacle
04/14/07 9 63 32 95 Jean-Pierre Bacle
04/28/07 9 31 17 48 Jean-Pierre Bacle
06/23/07 7 19 6 25 Jean-Pierre Bacle
06/24/07 8 12 8 20 Jean-Pierre Bacle
06/03/07 6 Clive Petrovic Off-island observation at 1:30 pm
06/10/07 7 Clive Petrovic Off-island observation at 2:30 pm
07/28/07 6 2 13 15 David Blyden
08/28/07 1 2 2 David Blyden
09/02/07 2 Clive Petrovic Off-island observation at 2 pm
09/15/07 4 8 2 10 David Blyden
10/12/07 2 6 6 12 Jean-Pierre Bacle
10/20/07 8 5 5 10 David Blyden
11/17/07 3 Clive Petrovic Off-island observation at 4 pm
11/17/07 11 27 5 32 David Blyden
11/18/07 3 Clive Petrovic Off-island observation at 4 pm
11/29/07 8 31 6 37 Chris Thomas Anchored boats included 3 large catamarans with 8+ passengers per vessel; five dinghies on the beach
12/18/07 7 22 25 47 David Blyden
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 45
Date Anchored
Boats
Persons on
Beach
Persons on
Trail
Total
Persons
Observed
on Island
Observer Comments
12/30/07 16 Clive Petrovic Off-island observation at 3 pm
End Records, 2007
01/02/08 8 Clive Petrovic Off-island observation at 2 pm
01/06/08 5 Clive Petrovic Off-island observation at 3 pm
02/24/08 12 Clive Petrovic Off-island observation at 12:30 pm
02/24/08 10 Clive Petrovic Off-island observation at 2 pm
03/10/08 10 31 33 64 Jean-Pierre Bacle
03/24/08 4 Clive Petrovic Off-island observation at 3 pm
End Records for 2008, to March 2008
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 47
Sandy Cay Beach Monitoring
Beach Profile Data Form
Profile Name and Number: Sandy Cay #1 (southeast beach and beach rock)
Date of Measurement: September 21, 2004
Surveyors: Jean-Pierre Bacle and Zach Pascoe
Reference Point Description: Spray paint on tree
GPS Location of Start Point: N18° 26.134’ W64° 42.540’
Profile Bearing: 175 degrees
General Observations: Measurement start 1 m away from tree (reference point)
Measurement Down From N/A
Top of Reference Point:
Beach Segment Distance of Segment Angle Observations
A-B 3.45 m + 0.45’
B-C 2.45 m - 26° 30’
C-D 5.07 m - 7° 30’ beach rock/water line
D-E 7.19 m - 4° 15’
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 48
Sandy Cay Beach Monitoring
Beach Profile Data Form
Profile Name and Number: Sandy Cay #2 (southwest beach)
Date of Measurement: September 21, 2004
Surveyors: Jean-Pierre Bacle and Zach Pascoe
Reference Point Description: Spray paint on tree
GPS Location of Start Point: N18° 26.124’ W64° 42.614’
Profile Bearing: 210 degrees
General Observations: Measurement start 1 m from reference point
Measurement Down From N/A
Top of Reference Point:
Beach Segment Distance of Segment Angle Observations
A-B 9.16 m + 5° 15’ grassy area
B-C 9.7 m + 1° 15’ grass and sand edge
C-D 16.9 m - 5° 30’
D-E 16.95 m - 5° 15’
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 49
Sandy Cay Beach Monitoring
Beach Profile Data Form
Profile Name and Number: Sandy Cay #3 (west beach)
Date of Measurement: September 21, 2004
Surveyors: Zach Pascoe, Rob Power, Kevel Lindsay
Reference Point Description: Spray paint on tree (1 m off seagrape)
GPS Location of Start Point: N18° 26.159’ W64° 42.650’
Profile Bearing: 240 degrees
Measurement Down From N/A
Top of Reference Point:
Beach Segment Distance of Segment Angle Observations
A-B 6.75 m + 2.50’
B-C 2.10 m - 12° 30’
C-D 1.65 m - 27° 50’
D-E 7.90 m - 8° 15’
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 50
Island Resources Foundation
Sandy Cay Field Trip Reports
2000 — March 2008
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 53
Sandy Cay Field Trip Report (Prepared by Wolfram Dressler and Jean-Pierre Bacle)
May 24, 25, and 26, 2000
Jean-Pierre Bacle and Wolfram Dressler visited Sandy Cay on May 24, 2000, with the intent of
documenting and pinpointing the location of existing flora and fauna. Various habitat transitions and
significant individual species were geo-referenced with a Global Positioning System (GPS).
Avifauna at Sandy Cay, May 24, 2000
There were approximately 125-150 laughing gulls with various terns in their midst close to and on the
eastern most rock outcroppings (i.e., two small islets off of Sandy Cay’s east end). Throughout the
northern cliff edge there were numerous laughing gulls, of which photos were taken. It is presumed
that they were nesting in this area (11 a.m.).
One pair of Zenaida doves was observed at the eastern most wooded portion of Sandy Cay, and three
individuals were seen at the central salt pond.
Avifauna Observed
Red-billed Tropic bird (1) near rock ridge NE
Brown pelican (2) south side
Least terns (4) flying along south side
Zenaida doves (3)
Yellow warbler (1) song identified only
Bananaquit (numerous)
Sandy Cay Salt Pond
Access to the salt pond is relatively easy via a small marked opening at the western trail segment just
down-slope to the northwestern ridge. Distance between the main trail and the northwestern extent
of the pond is approximately 50 ft. The salt pond was completely dry and, despite little wind,
mosquitoes were not observed.
The salt pond is on a northwest/ southeast axis, which runs roughly parallel to the rock ridge. It is 275
feet long with a maximum width of 105 feet. It is fringed by white (Laguncularia racemosa) and
buttonwood (Conocarpus erectus) mangrove communities, approximately 4-8 feet in height. Both
species seemed physiologically stressed. Scattered sections of immature white mangroves are located
within the south-central portion of the salt pond.
Sea purslane mats the entire extent of the salt pond’s bed, while its centre is completely ―dry‖ and
devoid of vegetation (this may be considered a salt flat). The salt pond lies at a lower elevation to
and is partially surrounded by a vegetated rock ridge, meaning it receives rainwater indirectly from
slope runoff and directly from precipitation. The salt pond’s centre was also geo-referenced (18 26‖
170’, 64 42‖ 553’; elevation 10 feet). Two photos were taken of the salt pond’s northwestern and
southeastern portions.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 54
Sandy Cay Palm Tree Status
A palm tree count was conducted while walking in a counterclockwise direction along the entire trail
system, and thereby limited observation to what could be seen from the trail. A total of 69 standing
and 9 felled palm trees were sighted in the northwestern portion of the trail system. Debris (palm
leaves) from palm felling was located at this site as well.
Geo-reference Points
1) Western edge of coral pavement and beach rock along the south shore (18° 26‖ 118’, 64° 42‖
529’, elevation of 13 feet).
2) Commencement of beach rubble and basalt along the south shore (18° 26‖ 135’, 64° 42‖ 505’,
elevation not recorded).
3) Boundary of upland bedrock ridge and beach and basalt along the south shore (18 26‖ 138’, 64
42‖ 467’, elevation of 22 feet).
4) Benchmark (18° 26‖ 159’, 64° 42‖ 443’, elevation of 41 feet).
5) Benchmark (18° 26‖ 191’, 64° 42‖ 502’, elevation of 73 feet).
6) Centre of Salt Pond (18° 26‖ 170’, 64° 42‖ 553’, elevation of 19 feet).
7) North shore boundary between upland bedrock ridge and the lowland (18° 26‖ 211’, 64° 42‖ 571’,
elevation of 2 feet).
8) Loblolly Tree (pisonia) (18° 26‖ 194’, 64° 42‖ 612’, elevation of 26 feet).
Boat Count
At the request of IRF researchers, personnel from the National Parks Trust carried out a cursory boat
count of chartered boats and sail boats anchored at Sandy Cay.
May 24, 2000
Private Crewed Sail Bareboat Total *
9:30 4 1 5
10:30 3 2 5
11:30 6 3 9
12:30 5 3 8
1:30 7 3 10
2:30 4 2 6
3:30 5 2 7
* Totals column represents the total number of boats at Sandy Cay at the given time. No attempt was made to
record any single vessel’s arrival/departure.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 55
May 25, 2000
Private Crewed Powerboat Total * Sail Bareboat
9:30 --- 2 1 3
10:30 --- 2 2 4
11:30 --- 3 2 5
12:30 --- 6 2 8
1:30 --- 13 --- 13
2:30 --- 14 --- 14
3:30 --- --- ---
* Totals column represents the total number of boats at Sandy Cay at the given time. No attempt was made to
record any single vessel’s arrival/departure.
May 26, 2000
Private Crewed Powerboat Total * Sail Bareboat
9:30 3 --- 3
10:30 9 --- 9
11:30 8 --- 8
12:30 7 2 9
1:30 8 3 11
2:30 8 3 11
* Totals column represents the total number of boats at Sandy Cay at the given time. No attempt was made to
record any single vessel’s arrival/departure.
Other Tourist Activities
Beach-related activities were limited to 8 to 12 people. Elsewhere we noticed a few snorkelers at the
southeast end of the island. We also noticed a total of five hikers along the trail during our stay.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 57
Sandy Cay Field Trip Report (Prepared by Wolfram Dressler and Jean-Pierre Bacle)
May 31, 2000
Research Team
Clive Petrovic, HLSCC
Judy Pierce, USVI Fish and Wildlife
Dr. Michael Ivie, Montana State University
Wolfram Dressler, Island Resources Foundation
Fin Fun Peters, NPT Marine Staff
Israel Bahador, NPT Marine Staff
Purpose
Sandy Cay was visited on the overcast day of May 31, 2000, with the intent to further consolidate sea,
shore, and land bird species counts, as well as to determine the origin of the four-to-eight-inch-wide
tracks located in the central salt pond. Additional insect species were also sought.
Avifauna Observed
Yellow Warblers: 17
Bananaquits: 13
Zenaida Doves: 11
Scaly-napped Pigeons: 15 (majority found in mangroves surrounding salt pond)
Red-necked Pigeons: 1 (seen flying over water)
White-cheeked Pintails: 4 (three flying over water towards central salt pond, and one seen
near salt pond)
Grey King Birds: 3 (all seen in mangroves surrounding salt pond, may be nesting)
Red-billed Tropic Birds: confirmed nesting site on northeastern cliff edge, J. Pierce
Brown Pelicans: 2
Bridled Terns:6 (potential nesting site)
Roseate Terns: 42 individuals (in one large colony located on the southwestern beach lobe)
Sandwich Terns: 53 individuals (intermixed with roseate tern colony on the southwestern
beach lobe).
Additional Information Provided by Petrovic and Pierce
1) Although we saw an abundance of roseate terns on Sandy Cay’s southwestern beach lobe,
they apparently do not nest on Sandy Cay. Pierce argues that roseate terns prefer higher cliffs
with many crevices, a habitat which is apparently scarce on Sandy Cay.
2) The nesting season for the most common species are: Seabirds nest between April, May and
June, whereas land birds may nest year round. Tropic birds nest from December to June.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 58
3) Even though laughing gulls are in various nesting stages along the northernmost extent of the
ridge trail, Pierce argues that visitors need not be restricted from the area as laughing gulls
are ―used to disturbance‖.
4) Of all species listed, tropic birds and bridled terns are the most sensitive to human
disturbance.
5) Rowan Roy predicted correctly that the reduced number of birds is due to an overabundance
of rats on the island. He explained that the predatory nature of the rat determines the
vulnerability of certain bird species. Since the Rattus rattus species nests in trees and is
therefore inclined to predation in trees as well as on the ground, the Frigate Bird populations
are especially vulnerable.
6) The pigeon/dove sightings were in and surrounding the salt pond because most prefer
shrubbery near the ground or trees at low-to-moderate elevations; each habitat characteristic
is found surrounding the central salt pond. Judy Pierce hypothesises that doves nesting on
Sandy Cay may also be frequenting neighbouring islands in order to feed.
7) The yellow warbler is very abundant on Sandy Cay because: 1) it is the only species of warbler
that nests this far south, and 2) it is a species which is commonly associated with dense
mangrove stands.
8) Birds commonly use small cays, such as Sandy Cay, not only for nesting but also as refuges
for food and shelter. And species abundance is relative to seasonal migratory routes (March,
April, May; and August, September, October).
NB: The southeastern portion of the salt pond held deep depressions (ground pockets) which were
inundated with water from the previous night’s rainfall.
Boat Count
Overcast, with very little tourism activity.
Charter Sail Boat Mini-cruise Boat
(No Other Type Present)
10:30 2
11:30 2
12:30 1
13:30 1 1
14:30 1
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 59
Sandy Cay Field Trip Report (Submitted by Edward Towle and Jean-Pierre Bacle to Clayton W. Frye, Jr.)
July 20-21, 2002
During the weekend of July 20 – 21, 2002, Dr. Chris Howell (IRF), Karen Varnham (consultant to
Fauna and Flora International/UK) and Jean-Pierre Bacle (IRF) visited Sandy Cay. The primary
objective of the trip was to undertake a preliminary assessment of the rat (Rattus rattus) population
and to develop a plan for rat eradication.
The second purpose of the trip was to review features relating to the caretaking and general physical
and wildlife conditions of the island.
Trail Condition and Coconut Palms
Most of the trail looked in good condition as a result of the recent work by Junior Coakley. We found
just a few dead palm leaves and branches along the trail’s northwest section, perhaps due to recent
tropical wave weather conditions. Lilies within the 4-foot-wide trail bed have been removed. The
aesthetic aspect of the trail is pleasing, particularly with many of the lilies currently blooming.
Along the southwestern shoreline, the fallen mature palm remains at its location as well as the three
others palms leaning precariously shoreward.
Termite Nest Count
A count of active termite nests visible from the trail was undertaken on July 20th. Ten nests were
located, all in the western portion of the island and all but one along the trail bordering the western
shoreline. Two of the nests were located on still healthy palm trees. The largest (spherical,
approximately one metre in diameter) was located on the northwest shoreline. Most of the nests were
within 10 feet and inshore of the trail, with the closest one overhanging above the trail.
Trash Count
One hundred eighteen articles of trash were counted; two-thirds of these items were located along the
north shore. Most of the plastic items were bottles and most of the metal items were aluminum cans.
Only two glass items were found; presumably the majority were smashed by wave action against the
reef and beach rock. The interior of the island was generally clean, with four old aluminum cans found
in the northeast interior and two in the southwest interior.
Trash Count Summary
Shoreline
North
Shoreline
West
Shoreline
South
Shoreline
East
Interior
Northeast
Interior
Southwest
Plastic 61 7 5 3 3
Glass 1 1
Metal 10 11 5 4 2
Other 3 2
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 60
Shoreline Erosion and Accretion
The sandy point to the southwest of the island has noticeably increased since our last visit in January,
2002. It now extends 55 meters from the vegetation line. The beach sections immediately east and
north of the sandy point have sustained erosion. To the east, the beach is much narrower and is
fronted by a sand scarp 1 to 2 metres high and about 50 metres long. The shoreline situation just
north of the sandy point remains somewhat similar to that observed last January. The sand scarp
(bluff) is about 1 metre high and 20 metres long.
Public Visitation
A count of private yachts was undertaken for both days during the peak day hour. Saturday’s (July
20) peak count at 1:30 PM was 11 anchored yachts. Around 70 to 75 teenagers landed on the beach
with 8 rubber dinghies and 6 kayaks. This group belonged to a commercial operation (Sail Caribbean)
that catered to overseas teenagers. Three visits were scheduled for Sandy Cay during the month of
July with groups ranging from 30 to 75. Aside from this large group, about a dozen other independent
adults frequented the beach.
Sunday’s (July 21) peak count at approximately 1 PM was 13 anchored yachts. The number of people
on the beach and/or engaged in water activity reached about 50, with 30 of them from the Sail
Caribbean operation and most of the remaining coming from Puerto Rico. Six dinghies and two sea
kayaks were used to provide access to the beach.
We observed 12 people walking the trail on Saturday and about 8 on Sunday. These figures are low
and likely under represented since most of our attention was on other issues and off the trail.
Bird Count
A bird count was done in the early morning for both days (see tables below). We observed 14 species
of birds on Saturday morning with the largest flock represented by Laughing Gulls (36) and the lowest
being a single White-tailed Tropic Bird resting on a ledge along the eastern rock cliff. Sunday’s
morning count totaled 15 different species and was highlighted by the observance of 14 Magnificent
Frigatebirds gliding along the eastern rock cliff. A large flock (45), containing laughing gulls, roseate
and common terns, was seen staging at the tip of the sand spit.
Other Observations
Two mounds of smashed conch shells (approximately 30-40), locally harvested, were found along the
north shoreline. Along the west and southwest shoreline we found 3 campfires. One campfire was
adjacent to a lean-to constructed of natural materials (palm frond and poles). The site looked very
recent.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 61
Sandy Cay Bird Observations
Saturday, July 20, 2002 (8 to 9 am)
Bananaquit 8 along trail loop
Brown Booby 2 over water
Brown Pelican 6 foraging in water
Common Tern 12 southeast rock islets
Grey Kingbird 3 salt flat
Laughing Gull 36 southwest sandy point
Least Tern 6 over water (south side)
Magnificent Frigatebird 3 overwater
Roseate Tern 12 southeast rock islets
Royal Tern 2 southeast rock islets
Scaly-napped Pigeon 5 perching in the periphery of the salt flat
White-tailed Tropicbird* 1 eastern cliff ledge
Yellow Warbler** 4 along trail loop and salt flat
Zenaida Dove 2 along trail
Sandy Cay Bird Observations
Sunday, July 21, 2002 (8-10 am)
Bananaquit 6 along trail loop
Brown Booby 3 over water
Brown Pelican 3 offshore of eastern rock cliff
Common Tern 10 southwest sandy point
Grey Kingbird 2 salt flat
Humming bird 2 along trail
(Antillean Crested?)
Laughing Gull 25 southwest sandy point
Least Tern 4 over water
Magnificent Frigatebird 14 gliding over eastern rock cliff
Pearly-eyed Thrasher* 1 south side vegetation edge
Roseate Tern 8 southwest sandy point
Royal Tern 2 southwest sandy point
Scaly-napped Pigeon 3 salt flat
Yellow Warbler** 5 along trail loop and salt flat
Zenaida Dove 1 along trail
* Observation by C. Howell
** Included a female Yellow Warbler with its young juvenile (indicative of recent nesting)
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
Page 63
SEMI-ANNUAL SANDY CAY SITE VISIT REPORT
(Prepared by Jean-Pierre Bacle and Kevel Lindsay [IRF] and Rob Power [HLSCC])
July 2003
On July 2, 2003, Rob Power, Kevel Lindsay, and Jean-Pierre Bacle visited Sandy Cay to examine the
permanent bait stations installed for the rat eradication programme and to review overall physical and
wildlife conditions on the island. The weather was warm with a light breeze and the sea state
relatively calm compared to the days immediately preceding the visit.
Because of logistical difficulties, the team arrived on the island in late afternoon and thus had less
then four hours for monitoring activities. Rob Power and Jean-Pierre Bacle proceeded to check the
bait stations, while Kevel Lindsay followed the trail observing and counting the number and species of
birds, both on-island and near-shore. Notes were also taken on other flora and fauna and on the
condition of the trail.
POST-RAT-ERADICATION MONITORING
This is the fifth monitoring trip to the island since completion of the successful rat eradication effort in
December of 2002. Sixteen permanent bait stations were examined and, like previous assessments,
there were no signs of rat activity. Additionally, no evidence of fresh tooth marks on vegetation (from
rat gnawing) was found. The team also observed that the once well-developed network of ―trails‖
running through the thick growth of sea purslane (Sesuvium portulacastrum) at the salt flat was no
longer present. One year ago, during IRF’s July 2002 reconnaissance trip to Sandy Cay, it had been
determined that these trails were formed by rats. Just a month following completion of the
eradication phase of the rat eradication program (January 2003), it had been noted that the rodent
trails ceased to be active and that sea purslane was gradually covering the rodent trails. This
continued to be the case in July.
Despite no sign of rats in and around the permanent bait stations, hermit crabs continue to be a
problem. They are increasingly active in consuming the rodenticide. Observations during the first
monitoring trip in January of this year indicated that about 61% of the rodenticide was consumed by
hermit crabs and by the time of the current monitoring visit (the fifth), it had increased to 81% (see
table below). Although the time elapsing between monitoring trips varied, the trend indicates an
increase in consumption.
Monitoring
Date
Time Between
Monitoring Trips
Bait Block
Replaced
% of Bait
Consumed
1/29/03 47 days 59 of 96 61%
2/23/03 24 days 62 of 96 64%
3/19/03 23 days 71 of 96 73%
5/11/03 52 days 76 of 96 79%
7/02/03 51 days 52 of 64 81%
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Initially, considerable effort was expended in minimising bait theft by hermit crabs. Each bait station
was mounted on top of a one-gallon paint can so that the slippery sides of the can would limit crab
access. Other preventive measures included the careful pruning of surrounding shrubs to prevent
crabs from climbing up overhanging vegetation and dropping onto the roof of the bait stations.
The ability of hermit crabs to gain access seems to have increased with time as the crabs became
familiar with the stations and their surroundings. Rob Power has observed that after stations were
replenished with bait, hermit crabs typically gather in large numbers at the base of a station and pile
on top of one another, thus forming a mound high enough for a few on top to gain access to the bait.
Relocating the stations may be futile since the size of the hermit crab population is such that it would
be only a matter of time before they rediscovered the new locations. IRF is currently examining other
anti-theft designs that are applied by the US National Park Service and the US Fish and Wildlife
Service in the American Virgin Islands. In the interim, due to the high consumption of rodenticide bait
blocks, the quantity of blocks per station has been reduced from the usual six to four.
A related, and also increasing problem, concerns the bait containers (or bait trays) which were found
to be damaged in nine of the stations and missing in five others. In many cases, bits and pieces of
the bait trays were found scattered outside the station. It is worth noting that these containers are
made of very thin plastic and could easily be torn and removed from the station by hermit crabs. In
fact, many of the pieces show claw marks or tear marks which suggest that hermit crabs were the
cause. The monitoring team collected a few of these pieces to be examined by experts for
confirmation.
BIRD OBSERVATIONS
Like previous visits to Sandy Cay, bird observations were made along the trail and shoreline. No
systematic method was used to estimate the population of each species observed. Noted were
species of birds and their numbers. Where individuals of some species were not visually observed but
heard, the numbers were estimated. These numbers in no way reflect the true populations of the
species present but may provide some support for carrying out more systematic bird studies on the
island.
Nine species of birds were observed in July, totaling approximately 75 individuals. The former number
represents 27% of the species thus far observed at the island. The most common species by far is the
bananaquit (Coereba flaveola), followed by the zenaida dove (Zenaida aurita).
During the July visit, a number of the bananaquits observed were immatures being fed by their
parents and/or calling to their parents. This was also true for some yellow warblers (Dendroica
petechia).
The bananaquit is generally a species of open woodlands and gardens and feeds primarily on the
nectar of flowers, the juice of berries and on small invertebrates. The warbler is an insectivore, most
commonly found in dry woodlands, coastal forests and mangroves.
There was an unconfirmed sighting of the Caribbean elaenia (Elaenia martinica). The bird observed
flew by and only afforded a few seconds of assessment. But given its size and color, and the fact that
the elaenia is recorded for the island, it was concluded that it is likely this species. No calls of this
species were heard during the July visit.
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There were no nesting seabirds observed although just offshore there were small flocks of gulls, terns
and pelicans feeding.
Table showing species of birds observed at Sandy Cay on July 02, 2003.
Species Name Common Name Numbers Location
Coereba flaveola Bananaquit 18 Throughout island
Sterna sandivicensis Sandwich Tern 3 Off the southern shore
Pelecanus
occidentalis
Brown Pelican 8 Off southern and eastern coasts
Elaenia martinica Caribbean Elaenia (?) 1 Near mangroves
Tyrannus
dominicensis
Gray Kingbird 2 Middle of island
Sericotes
holosericeus
Green-throated Carib 1 On northeastern side
Larus atricilla Laughing Gull Approx. 7 Off the southern and eastern coasts
Zenaida aurita Zenaida Dove Approx. 15 Primarily in areas with trees and open under-story
Columba squamosa Scaly-naped Pigeon Approx. 10 Mangroves
Dendroica petechia Yellow Warbler Approx. 8 - 10 Throughout island
OTHER OBSERVATIONS
The July 2003 trip to Sandy Cay coincided with a continuing drought that was widespread in the
Eastern Caribbean—at least certainly from Puerto Rico in the north to Tobago in the south.
Unconfirmed reports on some islands south of the BVI asserted that the drought has lasted for almost
three years. This undoubtedly has affected the flora of Sandy Cay, although to what extent is
unknown.
Guinea grass (Panicum maximum)
The issue of guinea grass is still an on-going one for Sandy Cay, with differing views on what is to be
done about the species on the island in the future. The only patch of guinea grass grows on the west-
facing side of the rock ridge. The patch is small and looks relatively stable. It is bordered on most
sides by shrubbery and on the northeast by the trail. The trail cuts through low shrub forest, thereby
keeping the grass from spreading further.
Considering its current situation, there is no immediate need to remove this non-native species. It
could be controlled and eradicated over time by either leaving it and allowing the native shrubs and
trees to shade it out (the grass is a species requiring plenty of sunlight and cannot survive in constant
shade) or through enrichment/enhancement planting of its competitors. Eradication could also be
accelerated through the use of native species. Two native plants that could be useful if such an effort
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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was employed are Capparis flexuosa and Croton spp. (namely, Croton flavens var. rigidus and Croton
astroites).
Seeds of these natives could be collected and grown in a nursery, then transplanted on the island and
maintained until such time as when they shade the grass out. Establishment of a monitoring plot
should be considered to assess the situation on a seasonal basis.
Spider lily (Hymenocallis caribaea)
Spider lilies were introduced on Sandy Cay many years ago as part of an effort to enhance aesthetics
along the trail. The species is spreading very rapidly across the western two-thirds of the island and
may soon be the major component of the under-story herbaceous species biomass.
The spider lily spreads by both vegetative means and from seeds. During dry periods it is able to use
its stored water and food (stored in bulbs) and so has an advantage over native plants. By the arrival
of the rainy season, having survived the dry periods and gained a head start over other species, it is
able to spread more rapidly. It therefore crowds out the native herbaceous under-story flora and also
seedlings of the canopy trees.
The monitoring team also noted that in many places there was little native herbaceous flora in the
under-story. The lily may be creating new ecological associations. However, the native ameivas or
ground lizards prefer more open under-story. The zenaida doves also depend on a more open under-
story for feeding and escape. (The team is not aware of native species of plants or animals that
benefit directly from this species.) If not controlled, it could out-compete the native flora and
adversely affect some of the wildlife.
Sea Turtle Activity
During a January 2003 Sandy Cay visit, IRF scientists observed what appeared to be a series of turtle
nest pits along the north shore beach zone. Typically these features were located about a few metres
inland of the vegetation line along the under-story of sea grape thickets. The nest pits were 1 to 1.5
m in diameter and 20 to 30 cm deep. About half a dozen nest pits were noticed in the vicinity of
permanent bait stations #11 and #12. IRF will continue to investigate and monitor this situation, with
the support of H. Lavity Stoutt Community College and the BVI Conservation and Fisheries
Department.
Trail Condition
Most of the trail appeared to be in good condition. A few dead palm fronds and broken tree branches
were found along the trail’s northwest and southwest quadrant, perhaps due to recent heavy winds.
In many areas the once 4-foot-wide trail is narrowing due to the rapid encroachment of spider lilies.
Public Visitation
Because of the lateness of the day, only a few yachts were anchored and no visitors were observed
walking the trail.
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REPORT of SANDY CAY FIELD TRIPS (Prepared by Jean-Pierre Bacle)
February 2004
During the third and fourth weeks of February 2004, Island Resources Foundation, with the support of
the National Parks Trust (NPT) and the H. Lavity Stoutt Community College (HLSCC), undertook a
series of field trips to Sandy Cay that were directly related to ongoing rat eradication monitoring and
routine trail maintenance. The field activities also focused on current management objectives and
future environmental monitoring. During the February stay of IRF staff in the British Virgin Islands,
Sandy Cay was visited on three separate occasions and a side trip to Jost Van Dyke was added as a
part of the final Sandy Cay excursion.
As customary, while visiting Sandy Cay we obtained bird counts and made observations on
recreational use and the overall natural conditions of the island. The weather during our stay was
sunny and pleasant. Sea conditions were generally calm except for the first trip (February 21) when
heavy surf nearly cancelled the trip.
A slide show consisting of selected pictures taken during our visits has been provided on a CD Rom
and is included with this report.
POST-RAT-ERADICATION MONITORING (Field Trip #1)
During the weekend of February 21-22, Rob Power (HLSCC) and Jean-Pierre Bacle (IRF) visited Sandy
Cay to accomplish two objectives. The first was to modify the permanent rat bait stations in order to
minimise access of non-target species (hermit crabs), and the second was to reconfirm through
overnight observations that the island remains rat free.
Permanent Rat Bait Stations
Over the last year of monitoring, we have studied the ongoing problem of how best to curtail hermit
crab access to the rodenticide within bait stations (see July 2003 Report). Despite efforts to reduce
bait theft by crabs, the problem persisted. The issue is not related to the station itself but to the
mount design and height. Given the high density of crabs throughout most of the island and the
apparent ease with which they have been able to gain access to the stations, it became necessary to
adopt a new mount design.
The hermit crab problem is not unique to Sandy Cay. The U.S. National Park Service conducted an
island-wide eradication and monitoring program at Buck Island Reef National Monument in the USVI
and encountered similar problems. Their bait stations were modified several times to assure minimal
access to non-target species. We have now adopted a similar design. Individual bait stations are now
affixed to the top of a vertical steel stake (re-bar) that is driven into the ground. The steel stake
holding the station is sleeved by a PVC pipe, which has a smooth surface, thereby preventing crabs
from climbing (Photos 1 and 2). The height of the station can easily be adjusted to fit the
surrounding conditions. Stations can also be relocated with ease since they are no longer anchored to
the ground.
All permanent station mounts were replaced in February, except for Station #9 which showed no or
very little hermit crab activity throughout the year. Station #8 was relocated a little further from the
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trail. Figure 1 shows locations of all permanent stations. Each station will be geo-referenced by GPS
during a future trip to Sandy Cay.
Observations a few days following this set-up are somewhat encouraging. Less then 10% of the
stations showed signs of crab activity. As the hermit crab problem remains unresolved, we anticipate
some adjustments to these stations in future visits.
Rat Project Monitoring
As part of a long-term monitoring protocol for Sandy Cay, some snap traps and/or live traps should be
periodically set up to reconfirm that rats no longer inhabit the island. During the evening of February
21st, four snap traps and four Sherman traps were laid in strategic areas along the perimeter of the
island where rodents are likely to re-invade the island. All snap traps were set up on low tree
branches between 1 to 2 metres above ground to discourage crabs from gaining access. Sherman
traps were laid on raised stumps or wood debris to also deter crabs from gaining access. We
conducted observations throughout the evening and early morning. These revealed that none of the
snap traps were tripped; a few of the Sherman traps had crabs in them but no rodents. All traps were
removed after the over-night monitoring exercise.
From these observations, along with monitoring data collected throughout the year, we can conclude
with a high degree of confidence that Sandy Cay continues to be rat free.
TRAIL MAINTENANCE AND MANAGEMENT (Field Trip #2)
On February 24th, Roy and Chris Thomas with the assistance of Jean-Pierre Bacle visited Sandy Cay for
the primary purpose of undertaking trail maintenance work and examining management issues related
to trail maintenance. Included in the day’s programme was a demonstration on post-rat-eradication
monitoring procedures and an informal workshop on trail maintenance and vegetation control.
Participants in these sessions were: Nancy Woodfield, Raymond Walker and Keith Grant (from NPT)
and Bruce Donath (Jost Van Dyke Preservation Society).
In the rat monitoring session a variety of procedures were described, including how to access the
stations, examine content for wildlife activity, and record observations on a log sheet. Proper handling
of the rodenticide was also demonstrated. The trail maintenance session conducted by Roy Thomas
covered basic concepts of trail clearing, pruning along trail edges, clearing shrubs from the under-
story, and proper disposal of the slash.
OVERVIEW TRIP TO SANDY CAY and JOST VAN DYKE (Field Trip #3)
On February 29th IRF scheduled a half-day visit to Sandy Cay. The purpose was to review with
participants the activities of the two prior February visits and to highlight some of the issues relating
to ongoing and future monitoring, trail maintenance and other management concerns. Participants in
the February 29th visit were: Joseph Smith-Abbott (NPT director), William Moody (Rockefeller Brothers
Fund), Dr. Christopher Howell (IRF), Susanna Henighan (freelance journalist), and Jean-Pierre Bacle
(IRF).
Following this visit to Sandy Cay, the group continued on to neighbouring Jost Van Dyke Island. There
they were met by Bruce Donath and Tessa and Foxy Callwood, all active members of the Jost Van
Dyke Preservation Society. The main purpose of this trip was to explore possibilities for the
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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Preservation Society to take on a major stakeholder role in the planning for Sandy Cay’s long-term
future.
BIRD OBSERVATIONS
As in previous visits to Sandy Cay, bird observations were made along the trail and shoreline. We
recorded bird sightings on four different days including observations made by Roy and Chris Thomas
on February 24th (see Table 1 below).
A total of thirteen different species were recorded during the February 2004 visits. The average
number of individuals was approximately 30. The most common species was the bananaquit (Coereba
flaveola), closely followed by the yellow warbler (Dendroica aurita). They were frequently observed
while feeding on the fruit of the pipe organ cactus (Pilosocereus royenii). Three pairs of white-tailed
tropicbirds were observed nesting along the northeastern edge of the rocky cliffs. Past records
indicate that these birds favour this confined site for nesting.
Table 1. Bird observations at Sandy Cay, February 2004.
Bird Species Recorded 02/21/04 02/22/04 02/24/04 02/28/04
Brown Booby 3 3 3
Magnificent Frigatebird 1 3 1 2
White-tailed Tropicbird 1 6 3
Brown Pelican 4 5 3 1
Osprey 1
Scaly-naped Pigeon 4 6 4 2
Zenaida Dove 1 3 2
Antillean Crested Hummingbird 1
Green-throated Carib 1
Belted Kingfisher 1
Grey Kingbird 1
Yellow Warbler 6 8 8 4
Bananaquit 11 12 12 9
* Mid-day observation when bird activity is generally low
PUBLIC VISITATION
Visitors to the island were plentiful as February is a key month of the winter tourism season. Busiest
visitation times were between 11 am and 2 pm. Whenever possible, we recorded the maximum boats
anchored and people utilszing the beach at a given time during the 11-to-2 peak hours. For people
walking the trail, we kept track of the numbers we encountered while we were working or walking the
trail. Our busiest day was February 24th with 11 boats anchored and about two dozen people walking
the trail. During the weekend of February 21-22, Sandy Cay had few visitors due to the heavy surf.
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Table 2. Visitation at Sandy Cay on selected days, February 2004.
02/21/04 02/22/04 02/24/04 02/29/04
Anchored Boats 1 2 11 8
Persons on Beach 8 21 14
Persons on Trail 23 15
OTHER ISSUES
Damaged Environment
Unfortunately, recent human disturbance in the northeast area of the rocky ridge has caused
significant damage to the vegetation (Photos 3 and 4). As documented in the last two reports
received from Roy Thomas, the area in question has been significantly impacted, most likely by a film
crew who cleared the cliff top of vegetation in order to gain a better vista. This action left a wind-
swept landscape devoid of soil layer, ground vegetation and shrubs. Because of the erosive funneling
effect of the strong winds, it will be difficult for vegetation to re-colonise this area. To add to the
problem, this newly cleared area, with a spectacular view toward Green Cay, is now easily accessible
by persons using the trail. This added disturbance could seriously threaten the nesting colony of
nearby Tropicbirds.
To discourage people accessing the cliff face from the trail, a temporary natural barrier was created
consisting of cut branches from the trail pruning. A site recovery plan for this area should be included
in future management activities for the island.
Shoreline Erosion
Beach erosion and accretion are normal processes linked to weather and sea conditions, which can
cause changes in the beach profile naturally, seasonally, and dramatically over a period of time,
mainly following tropical storms. Sandy Cay is experiencing some erosion particularly along the south
shore just to the west of the rocky ridge. Beach erosion is now seriously encroaching at least three
sites along this stretch of the trail (see Photos 5 to 7). The problem is increasing because foot traffic
moves from the beach onto the trail along areas also impacted by erosion. Vegetation along this
dune/berm complex cannot withstand the continual pressure of foot traffic as visitors to the island
cross over this area to gain access to the trail. The informal foot paths that are thus created become
points of weakness through which waves can break during storms, further accelerating the erosion
process.
A site restoration plan has been proposed by Chris and Roy Thomas to relocate the trail further inland
and establish temporary dune fences to cut off ongoing foot traffic at points of excessive erosion. The
type and size of dune fence will be determined based on the requirement that the fences serve two
important functions: blocking foot traffic and enhancing the buildup of natural dune/berm formation.
The growth of beach grass and other natural vegetation will provide further stability and buffer for the
dune/berm area and should therefore be encouraged. The restoration plan should incorporate a
monitoring regime that requires some elevation reference markers at key sites.
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Figure 1.
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Photo 1. Permanent bait station #14 recently affixed on a new mount.
Old station mount (one-gallon paint can) to the right will be removed.
Photo 2. A close-up view of permanent bait station #6. The station consists of the bait
box (in black) affixed to a metal stake (re-bar) and a PVC pipe to prevent crabs
from climbing. Old station mount to the left will be removed.
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Photo 3. Damaged environment along the northeast area of the rocky cliff. The cleared
area in the foreground was apparently done by a film crew in order to gain a
better view from the cliff.
Photo 4. Looking away from the cliff edge. The impacted area in the foreground is
exposed to prevailing northeasterly winds which will make it difficult for
vegetation to re-colonise.
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Photo 5. Erosion along the southeast shoreline is threatening to encroach on the trail (the first
of three sites experiencing erosion along the south shore). This site shows that a
one metre buffer barely separates the trail from the high water mark.
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Photo 6. Erosion further to the east (second of three sites along the south shore discussed in
the text). Dead tree limbs and exposed roots are the result of ongoing erosion and
foot traffic to and from the beach.
Photo 7. Along this section of the south shore (the third of three sites discussed in the text),
berm/dune formation is breached due to shoreline erosion and foot
traffic. This section of the trail will have to be relocated and restored.
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REPORT of SANDY CAY FIELD TRIPS (Prepared by Jean-Pierre Bacle)
May 30, June 7, and September 21, 2004
From May to September 2004, staff from Island Resources Foundation and H. Lavity Stoutt
Community College (HLSCC) undertook a series of field trips to Sandy Cay that were directly related
to ongoing rat eradication monitoring and routine observations on the overall condition of the island,
including trail condition. Visits to the island were as follows: May 30th by C. Petrovic (HLSCC); June
7th by R. Power (HLSCC) and J.P. Bacle (IRF); and September 21st by R. Power (HLSCC), K. Lindsay,
J.P. Bacle and Z. Pascoe (IRF).
As customary, while visiting Sandy Cay we obtained bird counts and made observations on
recreational use and the overall natural conditions (flora and fauna) of the island. During our
September 21st trip we also started a beach monitoring programme. This was initiated just a week
after tropical storm Jeanne passed through the area which caused significant beach erosion and
flooding of the interior salt pond (see Photo#1).
POST-RAT-ERADICATION MONITORING
All bait stations were examined during our last two trips to the island and results show no sign of rat
activity. Other indicators such as rodent trail and tooth marks (gnawing) on fruits and branches were
not present. Also during this trip we noticed an increase in nesting activity within the perching bird
community (Passeriformes), particularly the scaly-naped pigeon (Columba squamosa), grey kingbird
(Tyrannus dominicensis) and bananaquits (Coereba flaveola). This increase could partly be attributed
to the fact that these perching birds no longer have rats as their main predators.
During our previous trip in May we modified the permanent bait stations in order to minimise access of
non-target species (hermit crabs). Unfortunately, the problem continues to persist despite our effort
to deter them. From our records, about 80% of stations show signs of hermit crab activity. We plan
on more design modification in the near future.
TRAIL CONDITION
In June the trail looked in excellent condition with little vegetation liter on the ground. However,
during our last visit (9/21/04), we noticed a considerable amount of palm fronds and branches strewn
across the trail and shoreline, likely the result of tropical storm Jeanne which passed through the area
a week prior. A small section of trail along the northwest side was under a few inches of water, also
as a result of heavy rains from the tropical storm.
Vegetation encroachment along the trail is becoming more evident and even problematic in certain
areas, especially along the upland ridge. Here, a variety of grasses and shrubs have completely
overtaken some sections of the trail. Elsewhere, along the lowlands, the problem is minor. Trail users
are not yet hindered in their use of the trail, in part because of a wider-designed trail. Nevertheless,
in numerous sections of the trail, vegetation needs to be trimmed back and ground plants removed.
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BEACH MONITORING
During our September visit, as part of a long-term beach monitoring programme, we have set up
three beach profile stations. The intent is to gather as much data as possible on beach dynamics.
Monitoring will occur on a seasonal and yearly basis. This will provide important information relative
to trail management, the impact on coastal vegetation, turtle nesting activity and human impact in the
shoreline environment.
Beach profiles were measured at three sites where the shoreline is considered the most dynamic. For
each profile, a permanent reference point was set up at the start of the survey using a GPS and an
angle reading from an Abney level.
BIRD OBSERVATIONS
As in previous visits to Sandy Cay, bird observations were made along the trail and shoreline. We
recorded bird sightings on all three trips (see Table 1). Bird counts were made by C. Petrovic on May
30th, J.P Bacle and R. Power on June 7th, and K. Lindsay and J.P. Bacle on September 21st. A total of
26 different species were recorded during that period. One prairie warbler (Dendroica discolor) was
recorded for the first time since records were maintained. This brings the total bird record for Sandy
Cay to 45 species.
Of particular interest during the June 7th trip was the increased nesting activities of at least four
species: scaly-napped pigeon, zenaida dove, grey kingbirds and bananaquits. We observed at least
six active scaly-napped pigeons nest sites with most of them having eggs. Most nests were
constructed along the upper branches of seagrapes (Coccoloba uvifera) and spoon trees (Cassine
xylocarpa). In September, tropical storm Jeanne caused a significant rise in the salt pond’s water
level, thereby attracting more waterfowl activity. During our last trip we observed at least four pairs
of white-cheeked pintails (Anas bahamenis) foraging in the salt pond. A great egret (Ardea alba) was
also recorded.
SEA TURTLE ACTIVITY
Sea turtle nesting activity has been reported in the past on Sandy Cay beaches and is documented in
Eckert, et al. (1992). During surveys conducted by the BVI Conservation and Fisheries Department,
crawls and nests were reported for the hawksbill, green and leatherback turtles.
More recent signs of activity were reported during a January 2003 visit to Sandy Cay. IRF scientists
observed what appeared to be a series of turtle nest pits along the north shore beach zone, but no sea
turtles were observed (see Site Visit Report, July 2003). However, during our September 2004 field
trip, we not only identified about a half a dozen nest pits but actually observed an active nest site
that contained more than a dozen eggs with one hatchling. The nest was located along the south
shore sand bluff. Apparently heavy surf during tropical storm Jeanne had eroded this section of
shoreline and gradually exposed the nest. Based on photos and field notes shared with a local expert
(Dr. Lianna Jarecki, HLSCC), the hatchling was identified as a hawksbill (Eretmochelys imbricata), an
endangered sea turtle species.
Findings were communicated to Shannon Gore who is involved in the ongoing turtle monitoring
programme at the Conservation and Fisheries Department. Ms. Gore was helpful in providing
identification protocols and field data forms for future monitoring of sea turtles at Sandy Cay.
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Table 1. Bird observations at Sandy Cay.
Species 5/30/04 6/07/04 9/21/04
Magnificent Frigatebird 2
Brown Pelican 8 5 1
Brown Booby 5 1 1
Laughing Gull 17 13 2
Royal Tern 1
Sandwich Tern 8 6
Common Tern 2
Roseate Tern 8 8
Bridled Tern 1
Great Egret 1
Semipalmated Plover 2
Solitary Sandpiper 1
Stilt Sandpiper 1
Semipalmated Sandpiper 1
American Oystercatcher 2
White-cheeked Pintail 1 8
Scaly-napped Pigeon 5 12* 8
Zenaida Dove 15 11* 9
Green-throated Carib 1 2
Gray Kingbird 7* 13
Barn Swallow 1
Caribbean Martin 1
Yellow Warbler 23 15 21
Prairie Warbler 1
Bananaquit 16 11* 32
Black-faced Grassquit 2
* nesting activity
VISITATION
Considering the time of the year, the number of visitors to the island was rather good. Busiest
visitation times were between 11 am and 2 pm. Whenever possible, we recorded the maximum
number of boats anchored and people utilising the beach at a given time during the 11 am to 2 pm
peak hours. For persons walking the trail, we kept track of the numbers we encountered while we
engaged in our work.
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Table 2. Visitation at Sandy Cay on selected days, 2004.
5/30/04 6/07/04 9/21/04
Anchored Boats 9 5 6
Persons on the beach 15 11 21
Persons on the trail 9 6 8
REFERENCES
Eckert, K., J. Overing, and B. Lettsome, 1992. WIDECAST Sea Turtle Recovery Action Plan for the
British Virgin Islands (K. Eckert, ed.). CEP Technical Report No. 15. UNEP Caribbean
Environment Programme, Kingston, Jamaica. 116 pp.
Photo 1. Higher water level in the salt pond due to tropical storm Jeanne.
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SANDY CAY SITE VISIT REPORT (Prepared by Jean-Pierre Bacle)
Annual Report for 2005
INTRODUCTION
During 2005, Island Resources Foundation, with local institutional and individual support from its
associates, undertook six field trips to Sandy Cay, primarily focused on the Rat Monitoring
Programme. As customary, while visiting the island participants obtained bird counts and made
observations on the overall status of the island’s flora and fauna, trail condition and recreational
usage. Two of the field trips were carried out jointly with staff from Resortscapes, Inc. and members
of the Jost van Dykes Preservation Society, which is responsible for trail maintenance. The following
report provides a summary of 2005 field trip activities, observations and related issues.
2005 FIELD TRIP SCHEDULE
Date Participants Activity
01/3/05 Z. Pascoe (IRF), N. Woodfield (NPT) ,
R. Power (HLSCC) rat monitoring and general observations
01/13/05 Z. Pascoe (IRF) rat monitoring and general observations
02/22/05 NPT staff, JVDPS members, B. Moody (RBF),
J.P. Bacle, L. Gardner, N. Georges (IRF)
annual visit with NPT and Bill Moody, review of
environmental issues, and monitoring activities
02/23/05 C. Thomas (Resortscapes)
J.P. Bacle and Z. Pascoe (IRF)
trail maintenance, rat monitoring, and
general observations
09/17/05 Z. Pascoe (IRF), C. Petrovic (HLSCC)
J.P. Bacle (IRF)
rat monitoring and
general observations
12/5/05 C. Thomas (Resortscapes), D. Blyden and Foxy
Callwood (JVDPS), and J.P. Bacle (IRF)
trail maintenance, rat monitoring, and
general observations
HLSCC H. Lavity Stoutt Community College
IRF Island Resources Foundation
NPT National Parks Trust
RBF Rockefeller Brothers Fund JVDPS Jost Van Dykes Preservation Society
POST-RAT-ERADICATION MONITORING
Throughout the year bait stations were examined, and we observed no sign of rat activity (see
example of Permanent Bait Station Record Sheet below). Other indicators related to rodent behaviour
were absent such as rat trails in the salt pond and tooth marks (gnawing) on fruits and branches.
Noticeable also in the last three years was a slight increase in nesting activity among certain species
of perching birds. This increase may be attributable to the elimination of the predator.
The ongoing problem of hermit crabs accessing the bait stations has continued despite several design
modifications since the start of the monitoring programme. During the year we have tested a
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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different bait station designed by the managers of Seagrape Cottages located on neighbouring Little
Thatch Island. This new design has proven to be very effective in limiting hermit crab access (Photo
#1).
In IRF’s 2006 visits to the island, we plan on gradually replacing all the old stations by this new one.
This change is also timely since most of the old stations have deteriorated under tropical weather
conditions and need to be overhauled.
TRAIL CONDITION
In early 2005, Mr. Bacle (IRF) assisted Chris Thomas (Resortscapes) in cutting a new 30 metre trail
section to bypass a section of the southeast trail that was damaged by coastal erosion and beach
―foot‖ traffic. This new trail section was previously marked out by Roy and Chris Thomas during their
December 2004 visit to the island. It is located 5 to 10 metres inland from the currently closed-off
trail section. The new trail section follows the landside of the beach berm and is adjacent to the inland
wetland. The location of the new trail section was carefully selected in order to minimise tree removal
and to preserve the overall integrity of the site (Photo #2). The old trail section was effectively
blocked at both ends and from beach access with branch cuttings from the new trail section.
In our last visit to the island in 2005 (December 5th), we noted that vegetation growth has
significantly covered the old trail section and that old foot paths to/from the beach were no longer as
evident as in the past. The beach grass community is slowly stabilising the berm system. We also
concluded that ―snow fences‖ will not be required to block access or stabilise the beach berm.
BIRD OBSERVATIONS
Bird counts were made during all visits to the island (see Table 1). As in previous visits to Sandy Cay,
bird observations were made along the trail and the shoreline. A total of 20 different species were
recorded during the year, which is somewhat consistent with previous years. Although the diversity of
species tends to remain the same from year to year, we noticed a slight increase in the perching bird
count in the last three years, most notably the scaly-napped pigeon (Columba squamosa), zenaida
dove (Zenaida aurita), grey kingbird (Tyrannus dominicensis), bananaquits (Coereba flaveola), and
yellow warbler (Dendroica petechia).
During a field trip on September 17, 2005, Clive Petrovic recorded over 30 pigeon and dove nests
along the trail corridor although, due to the season, most of them were not active. He also recorded
29 bananaquit nests (one nest containing two eggs).
SEA TURTLE ACTIVITY
No sea turtles were sighted during visits to Sandy Cay in 2005; however, numerous signs of activity
were recorded. Zach Pascoe (January 13, 2005) observed what appeared to be a series of turtle nest
pits along the western north shore beach area, but no sea turtles were observed. He noted that a
recently active nest site was found and that it contained more than 25 eggs already hatched. The
turtle nest was located on a berm that was uncovered by what appeared to be heavy surf-induced
erosion.
Most recent signs of activity were observed during our December 5, 2005 trip to Sandy Cay, where we
noted at least 6 inactive nest pits. Of concern is the fact that one of these pits showed signs that it
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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recently had been dug by humans (Photo #3). It is difficult to conclude if this is evidence of
poaching activity or related to curious day users.
Sea turtle findings and observations were communicated to Shannon Gore, who is involved in the
ongoing turtle monitoring programme at the BVI Conservation and Fisheries Department.
Table 1. Recent bird observations at Sandy Cay.
Species 1/3/05 1/13/05 2/22/05 2/23/05 9/17/05 12/5/05
Magnificent Frigatebird 5 3 1 1 2
Brown Pelican 7 3 5 6 7 5
Brown Booby 4 1 2 2 2
Green Heron 1
Ruddy Turnstone 1
Laughing Gull 2
Royal Tern 1 2
Sandwich Tern 1
Wilson’s Plover 1
Semipalmated Plover 1 2 4
Sanderling 4 2
White-cheeked Pintail 1
Scaly-napped Pigeon 17 15 11 13 4 6
Common Ground Dove 2 1 1 2
Zenaida Dove 4 6 7 10
Green-throated Carib 2 3 1 7 1
Gray Kingbird 3 1 5 4 3 1
Yellow Warbler 2 1 7 5 12 8
Bananaquit 30 15 17 21 49 20
Black-faced Grassquit 1 2 1 3
* nesting activity
VISITATION
The overall number of visitors to the island was consistent with previous years. Busiest visitation
times were between 11 am and 2 pm. Whenever possible, we recorded the maximum number of
boats anchored and people utilising the beach at a given time during the 11 am to 2 pm peak hours.
For persons walking the trail, we kept track of the numbers we encountered while engaged in our field
work.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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Table 2. Visitation at Sandy Cay on selected days, 2005.
1/3/05 1/13/05 2/22/05 2/23/05 9/17/05 12/5/05
Anchored boats 8 2 5 6 4 4
Persons on the beach 20 0 17 13 22 8
Persons on the trail 4 0 7 5 3 6
OTHER OBSERVATIONS
Vegetation. With more than sufficient rain this year, Sandy Cay’s vegetation showed signs of
healthy growth. During most of our trips we observed many species with blooming flowers, for
example: ground plants (Hymenocallis caribaea and Sesuvium portulacastrum); trees (Plumeria alba,
Coccoloba uvifera, and Pisonia subcordata); cactus (Pilosocerreus royenii and Opuntia dillenii), shrubs
( Lantana involucrata and Jacquinia aborea).
A small cluster of fan palm seedlings (Coccothrinax alta) was located in the northwest area of the
upland ridge by Z. Pascoe early in the year. The only other specimen recorded on Sandy Cay is
located in the lower slope of the upland ridge to the east of the salt pond. This species is native to the
Caribbean and in decline.
Many coconut palms have fallen victim to seasonal storms particularly along the western side of
the island (Photo #4). On the other hand, we also noticed a number of coconut seedlings further
inland in the back shores. A coconut tree count is recommended during the early part of 2006.
Coconut seedlings should also be included in the inventory.
Overnight camping. On a number of occasions throughout the year, as well as in the past, we
observed evidence of camping or squatting on the island. Most recently, on November 19, 2005,
members of the Jost van Dykes Preservation Society observed some camping activity (including a
tent) at the northwestern end of the island, just inside the tree line.
In the ―Sandy Cay Visitation Guidelines‖ prepared as an informal guide for the Sandy Cay
caretaker under SANDY CAY II, ―no camping‖ is one of the designated rules. Members of the IRF Sandy
Cay project team and of the JVD Society will maintain a record of such activity and will advise
campers, when encountered, that the owner of the island does not permit camping activities of any
kind.
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Example of Permanent Bait Station Record Sheet for January 13, 2005
Station
No. ANY SIGN OF ACTIVITY
Other
No. of Bait
Blocks
Replaced
Comments
RATS CRABS ANTS
1 X CRICKETS
ROACHES 6
All bait gone. Plenty of crab scat. *No Tray
2 X 6 All bait gone. Plenty of crab scat.
*No Tray
3 X X 6 All bait gone. Plenty of crab scat.
*Tray damaged
4 X ROACHES 6 All bait gone. Plenty of crab scat.
*No Tray
5 X 6 All bait gone. Plenty of crab scat.
+2crabs in trap
6 X CRICKETS
SPIDERS 6
All bait gone. Plenty of crab scat.
7 X 6 All bait gone.
Plenty of crab scat.
8 X 6 All bait gone.
Plenty of crab scat.
9 X 6 All bait gone.
Plenty of crab scat.
10 X ROACHES 3 Replaced some bait.
Some crab scat.
11 X 6 All bait gone. Plenty of crab scat. *Tray damaged + 2 crabs in trap.
12 X 6 All bait gone. Plenty of crab scat.
*No Tray.
13 X ROACHES 6 All bait gone. Plenty of crab scat.
*No Tray.
14 X ROACHES
CRICKETS 6
All bait gone. Plenty of crab scat. *No Tray.
15 X 6 All bait gone. Plenty of crab scat. *No Tray + Salamander in trap.
16 X CRICKETS 6 Some sign of crab scat. All bait gone.
*Tray damaged.
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Photo#1. Proposed new bait station constructed of PVC pipes.
Photo #2. New trail section looking westward. The beach is 8 m to the left.
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Photo #3. Sea turtle nest pit recently dug out by humans.
Photo #4. Erosion along western shoreline has downed a few palms trees.
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SANDY CAY SITE VISIT REPORT (Prepared by Jean-Pierre Bacle)
Annual Report for 2006
INTRODUCTION
During 2006, Island Resources Foundation, with local institutional and individual support from its
associates, undertook ten field trips to Sandy Cay, primarily focused on the Rat Monitoring
Programme. As customary when visiting the island, participants obtained bird counts and made
observations on the overall status of the island’s flora and fauna, trail condition and recreational
usage. Two of the field trips were carried out with Chris Thomas from Resortscapes, Inc. and six of
the trips with members of the Jost van Dykes Preservation Society, which is responsible for trail
maintenance and also, as of June 2006, responsible for carrying out the rat monitoring. This annual
report provides a summary of 2006 field trip activities, monitoring observations and overall Sandy Cay
environment-related issues.
2006 FIELD TRIP SCHEDULE
Date Participants Activity
1/8/06 Clive Petrovic (IRF) Bird count and general observations
2/19/06 JVDPS members, C. Thomas (Resortscapes),
J.P. Bacle (IRF)
Rat monitoring and general observations
Trail maintenance and termite control
Coconut tree count
2/22/06 JVDPS members, B. Moody (RBF),
J.P. Bacle, C. Petrovic (IRF)
Moody annual visit
Review of environmental issues and
ongoing monitoring activities
6/11/06 JVD Preservation Society members
J.P. Bacle (IRF)
Meeting in Jost Van Dyke with Preservation Society
members regarding rat monitoring, general
observations, and trail maintenance issues
6/13/06 Dave Blyden, (JVDPS)
J.P. Bacle (IRF)
Training on rat monitoring and
other monitoring activities
Trail maintenance
7/4/06 Dave Blyden (JVDPS) Rat monitoring (under IRF supervision)
8/16/06 Dave Blyden (JVD Society) Rat monitoring (under IRF supervision)
9/23/06
C. Thomas (Resortscapes),
D. Blyden and Foxy Callwood (JVDPS)
K. Lindsay and J.P. Bacle (IRF)
Trail maintenance,
rat monitoring, and
general observations
12/3/06 J.P. Bacle, K. Lindsay, J. Towle (IRF)
Bill Moody (RBF)
Ed Towle Memorial Trip to Sandy Cay
General observation
12/9/06 Dave Blyden (JVDPS)
Jean-Pierre Bacle (IRF)
Rat Monitoring
Minor trail maintenance
General observation
IRF Island Resources Foundation RBF Rockefeller Brothers Fund
JVDPS Jost Van Dykes Preservation Society
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POST-RAT-ERADICATION MONITORING
During all our trips to the island, we observed no sign of rat activity. Other indicators related to
rodent behaviour were absent such as tooth marks (gnawing) on fruits and branches and rat trails in
the interior salt pond.
This year we replaced 4 old stations with new ones designed to be more effective in limiting crab
access. Thus far, these new stations have proven to be successful 75% of the time. In other words,
at three of the four stations, the bait was not consumed by the hermit crabs. Because of this positive
development, IRF will continue replacing the remaining old stations with the new model.
In June, David Blyden (JVDPS and caretaker of Sandy Cay) underwent on-site training to participate in
the post-rat-eradication monitoring programme. Since June, David completed 3 monitoring trips to
the island and transmitted his observations to IRF. In 2007, IRF will continue providing oversight as
David takes over the rat monitoring regime for the next 10 months.
TRAIL CONDITION
During our visits associated primarily with rat monitoring, the trail appeared in excellent condition.
Trail maintenance activities were usually limited to removing palm fronts and minor pruning where
vegetation has encroached.
Two years ago, Mr. Bacle (IRF) assisted Chris Thomas (Resortscapes) in cutting a new 30 metre trail
section to bypass a section of the southeast trail that was damaged by coastal erosion and beach
―foot‖ traffic. The abandoned trail section is now completely overgrown with beach vegetation and
coastal shrubs.
BIRD OBSERVATIONS
Bird counts were made during all visits to the island (see Table #1). As in previous visits to Sandy
Cay, bird observations were made along the entire trail loop and shoreline. A total of 23 different
species were recorded during the year, which is three more then the previous year.
Although the diversity of species tends to remain the same from year to year, in June we noticed that
bird activity on the island was very high, the most it has been in many years. This was particularly so
for the perching birds, which were nesting throughout the island. Most active nests were from the
following species: scaly-napped pigeons (Columba squamosa), zenaida doves (Zenaida aurita), grey
kingbirds (Tyrannus dominicensis), bananaquits (Coereba flaveola), and yellow warblers (Dendroica
petechia).
SEA TURTLE ACTIVITY
Signs of sea turtle activity were recorded a number of times during 2006. Throughout the year we
noted at least two dozen inactive nest pits within the beach vegetation line. During our last trip on
December 9th we observed an active nest site along the west shoreline (Photo #1). The nest was
partially uncovered by heavy surf-induced erosion. We estimated that the nest contained at least 20
eggs, none of which had hatched.
Our findings and observations will be forwarded to marine biologist Shannon Gore, who is engaged in
the ongoing turtle monitoring programme of the BVI Department of Conservation and Fisheries.
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Table 1. Recent bird observations at Sandy Cay.
Species 1/8/06 2/19/06 2/22/06 6/13/06 9/23/06 12/3/06 12/9/06
Red-billed Tropicbird 3* 2* 2*
White-tailed Tropicbird 1 3
Magnificent Frigatebird 1 4 1 1 3
Brown Pelican 1 6 1 5 6 2 6
Brown Booby 2 2 3 2 2 2 4
Laughing Gull 21* 1
Royal Tern 4
Bridled Tern 7*
Least Tern 8
Noody Tern 3
Wilson’s Plover 5
Semipalmated Plover 1 1 1
Semipalmated Sandpiper 2
American Oystercatcher 2
White-cheeked Pintail 2
Scaly-napped Pigeon 2 19* 5 12 15
Common Ground Dove 1 2 1 2 1
Zenaida Dove 5 26* 2 8 5
Green-throated Carib 2 1 2 6 1
Gray Kingbird 2 1 8* 7 3
Yellow Warbler 6 7 6 16* 10 12 18
Bananaquit 21 11 22* 28* 14 16 21
Black-faced Grassquit 1 2
* nesting activity
VISITATION
Team members visited Sandy Cay on at least 10 occasions during the year. As customary, we
recorded the maximum number of boats anchored and people utilising the beach at a given time
during the 11 am to 2 pm peak hours. For persons walking the trail, we kept track of the numbers we
encountered while engaged in our field work.
Visitation records with daily averages and annual estimates are shown in Table #2. Table #3 provides
boat counts that Clive Petrovic took during the year from a vantage point on Tortola. Observations
were limited to anchored boats only since he did not have a clear view of the beach. It is noteworthy
that the daily averages of anchored boats in both tables are similar.
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Table 2. Visitation at Sandy Cay on selected days, 2006.
1/8 2/19 2/22 6/13 7/4 7/29 8/12 8/16 9/23 12/9 Daily
Average
Estimated
Total Annual (based on daily
average)
Anchored
boats 8 19 11 5 9 5 3 4 3 11 8 2,920
Persons on
the beach 40 23 29 13 45 5 13 50 16 35 27 9,855
Persons on
the trail 35 37 8 11 n/a 1 1 7 3 13 12 4,380
Table 3. Remote observations of visitation at Sandy Cay in 2006.
5/27 8/11 8/13 8/20 8/27 9/16 10/11 Daily
Average
Anchored
boats 16 4 16 6 4 2 12 9
Time of day 2pm 3pm 3pm 1pm 3pm 3pm 4:30pm
OTHER OBSERVATIONS
Vegetation. Overall, the flora on Sandy Cay is in healthy condition largely due to the abundance
of rain in the last few years. During most of our trips we observed many species with blooming
flowers, for example: ground plants (Hymenocallis caribaea and Sesuvium portulacastrum); trees
(Plumeria alba, Coccoloba uvifera, and Pisonia subcordata); cactus (Pilosocerreus royenii and Opuntia
dillenii); shrubs ( Lantana involucrata and Jacquinia aborea).
The only negative news to report is the loss of a large ficus tree (Ficus citrifolia) on the eastern
rock ridge. Following our September trip, Chris Thomas reported the serious state of decline of this
tree probably due to an insect borer followed in combination with a fungus. We noted during our last
trip in December that the tree was no longer alive.
Shoreline Erosion. In the last few years, many coconut palms (Cocos nucifera) have fallen
victim to seasonal shoreline erosion particularly along the western side of the island, and many more
are in precarious situation (Photo #2). Unfortunately, there is little we can do to counter this cycle.
On a brighter side, we noticed an increase in coconut seedlings (self-sown). During our second
December trip, at least six coconut seedlings were noted near the trail and along the shoreline (see
Photo #3 as an example).
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Photo #1. Turtle nest uncovered by shoreline erosion (December 9, 2006).
Photo #2. Mr. Blyden standing in front of an eroding shoreline bluff and tilting palm tree.
Four Decades of Site Maintenance and Environmental Monitoring at Sandy Cay, British Virgin Islands
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Photo #3. Palm seedling (3 feet tall) along the southwest beach zone.
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SEMI-ANNUAL SANDY CAY SITE VISIT REPORT (Prepared by Jean-Pierre Bacle)
January – June, 2007
INTRODUCTION
During the first six months of 2007, Jean-Pierre Bacle visited Sandy Cay three times. The first trip
(February 19th) included Chris Thomas (Resortscapes) and David Blyden (Jost Van Dykes Preservation
Society) and focused on trail maintenance and rat monitoring. On April 28th, David and Jean-Pierre
visited the island primarily for rat monitoring activities. During the third trip (June 23rd and 24th),
Jean-Pierre camped overnight on Sandy Cay for the primary purpose of re-confirming that the island
remained rat free. The experience was very uncomfortable as the population of sand flies (locally
called ―no-see-ums‖) was at its peak following many periods of rain. The screen size of the tent was
not small enough to deter insects from entering, and winds outside were not strong enough to blow
them away.
Other than the dates indicated above, David Blyden visited the island on a number of times for trail
maintenance and rat monitoring, and his activities are reported in documentation submitted by the
JVD Society to the Rockefeller Estate.
POST-RAT-ERADICATION MONITORING
So far this year, we observed no evidence of rat activity. Rat droppings in and around the 15 bait
stations as well as signs of gnawing on vegetation (twigs or fruits) were absent. Also absent were the
numerous networks of rat trails that existed prior to the eradication phase.
During the June 23-24 trip to the island, a dozen snap traps were set up. Periodically, once a year or
at least once every two years, the snap traps are used in order to confirm that the island remains rat
free. In order to avoid non-target species such as lizards and birds, the snap traps were tied to tree
branches one to two metres above ground, and traps were left open from dusk to dawn. At dawn,
none of the traps had been tripped.
The consecutive days on Sandy Cay during the June trip also provided an opportunity to re-examine
the ongoing hermit crab problem. On Saturday, all bait stations were replenished with rodenticide.
By the following morning about two-thirds of these stations had hermit crabs slowly crawling up the
bait station. The only stations not yet attracting crabs were the newly designed ones constructed
entirely of PVC pipe. Unfortunately, it is only a matter of time before they too are invaded by hermit
crabs. Although the newer stations have slowed the ability of hermit crabs to access bait, the design
needs further modification to make it full proof.
Earlier this year, a supply of rodenticide was provided to David Blyden. The amount should be enough
to cover use for the remaining months of 2007. Shipping rodenticide to the US Virgin Islands and
then carrying it by ferry to Tortola, through BVI Customs, is becoming more difficult and time
consuming; therefore, during the next phase of this long-term rat monitoring project, it may be more
efficient to order the product through a local pesticide supplier.
Bait station #9, of the original 16 stations (see Figure 1 in the February 2004 Field Trip Report), has been
eliminated.
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Since the beginning of the monitoring programme, all stations have been replaced at least once, and
their position on the ground moved on several occasions. During the June 2007 trip, geo-positions of
the stations were taken with a GPS (Garmin - GPS 76). Table 1 provides the new locations of each of
the 15 bait stations.
Table 1. Bait stations with new GPS location.
Stn # Stn. Type Latitude Longitude Location
1 New 18° 26’08.2‖ 64° 42’ 38.1‖ seaside of trail / lowland
2 New 18° 26’07.8‖ 64° 42’ 36.8‖ seaside of trail / lowland
3 New 18° 26’08.0‖ 64° 42’ 35.0‖ Inland side of trail /lowland
4 New 18° 26’08.1‖ 64° 42’ 33.4‖ Inland side of trail /lowland
5 2nd G 18° 26’08.8‖ 64° 42’ 29.2‖ Inland side of trail / lowland
6 2nd G 18° 26’09.6‖ 64° 42’ 28.2‖ Inland side of trail / upland
7 2nd G 18° 26’11.2‖ 64° 42’ 29.8‖ Inland side of trail / upland
8 2nd G 18° 26’10.8‖ 64° 42’ 33.4‖ Interior pond
9 2nd G 18° 26’10.1‖ 64° 42’ 32.6‖ Interior pond
10 2nd G 18° 26’12.5‖ 64° 42’ 34.3‖ seaside of trail / lowland
11 2nd G 18°26’12.3‖ 64° 42’ 35.8‖ seaside of trail / lowland
12 2nd G 18°26’12.8‖ 64° 42’ 38.2‖ seaside of trail / lowland
13 2nd G 18°26’12.0‖ 64° 42’ 39.7‖ seaside of trail / lowland
14 2nd G 18°26’10.1‖ 64° 42’ 38.4‖ seaside of trail / lowland
15 2nd G 18°26’09.3‖ 64° 42’ 38.7‖ seaside of trail / lowland
2nd G: Second generation of bait stations (first generation were all replaced).
TRAIL CONDITION
During the first trip of 2007 (February 19th), the project team, headed by Chris Thomas, undertook a
good cleaning and pruning of the trail corridor. Subsequent maintenance trips by Dave Blyden insured
that the trail was kept in good condition. Jean-Pierre Bacle reported that on his last trip to the island
in June, his overall impression was that Sandy Cay is clearly being looked after on a regular basis and
the trail is being well-maintained.
BIRD OBSERVATIONS
The June 2007 trip in particular was highlighted by an abundance of bird activity. With the return of
migratory birds during the months of May and June, many species of terns were observed foraging
around the island. At one point on Sunday morning (June 24, 2007), about 40 terns were observed
resting and grooming along the southwest sandy spit. The flock was represented by six different
species, including two roseate terns (Sterna dougallii), which are listed as federally (U.S.) threatened.
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Terrestrial birds, such as the scaly-napped pigeon (Columba squamosa), and zenaida dove (Zenaida
aurita), were nesting everywhere on the island. The yellow warblers were also plentiful, especially the
juveniles.
Noteworthy during the first annual trip in February was the sighting of five red-billed tropicbirds
(Phaethon arthereus) along the northeast rock cliffs. Although we did not observe any activity on
following trips, our records show that this species frequently uses this site as a staging area and for
shelter and nesting.
Since January 2007, we observed 21 different species of birds on or flying around the island (Table 2).
Included for the first time on record was the yellow-crowned night-heron (Nyctanassa violacea). This
individual heron was foraging the intertidal pools along the northwest shore. The sighting becomes a
new entry to our on-going Bird Count Records dating back to January of 1970, and extends the total
number of species to 50.
Table 2. Bird observations at Sandy Cay.
Species 2/19/07 4/28/07 6/23/07 6/24/07
Red-billed Tropicbird 5
Magnificent Frigatebird 2 1 2 2
Brown Pelican 3 8 4 3
Brown Booby 2 2 1
Laughing Gull 6 22* 18*
Royal Tern 1
Least Tern 2
Sandwich Tern 1 6
Roseate Tern 2
Sooty Tern 30 34
Yellow-crowned night- heron 1
Semipalmated Plover 2
American Oystercatcher 3 1
White-cheeked Pintail 6 3 4
Scaly-napped Pigeon 16* 54* 48*
Common Ground Dove 2
Zenaida Dove 10 26* 27*
Green-throated Carib 6 4 3
Gray Kingbird 2 1 1 5
Yellow Warbler 15 28* 22* 18*
Bananaquit 17 22* 18* 24*
* nesting activity
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VISITATION
Sandy Cay remains a popular destination for recreational users as indicated by the figures presented
in Table 3. It is important to note that this data reflects a snap shot in time, when visitation is most
active, (i.e., between 11 am and 2 pm). Fifteen to twenty boats are usually the limit at any point in
time, given the limited space for anchorage. A more systematic boat survey should be undertaken in
the near future, particularly as it may affect the number of mooring buoys proposed for this area
currently used as anchorage.
During the weekend of June 23-24, few people were walking the trail, evidently due to the ever-
present sand flies and mosquitoes.
Table 3. Visitation at Sandy Cay on selected days, 2007.
2/19/07 4/14/07* 4/28/07 6/23/07 6/24/07
Anchored boats 15 9 9 7 8
Persons on the beach 31 63 31 19 12
Persons on the trail 30+ 32 17 6 8
The figures for April 14, 2007, record the observations of the caretaker, David Blyden.
OTHER OBSERVATIONS
Vegetation on Sandy Cay continues to show signs of healthy growth due primarily to regular rains and
limited destructive storms. During the June 2007 trip, many species with blooming flowers were
observed, for example: ground plants such as spider lily (Hymenocallis caribaea) (see Photo 1) and
sea purslane (Sesuvium portulacastrum); trees such as frangipani (Plumeria alba), seagrape
(Coccoloba uvifera), and loblolly (Pisonia subcordata); and shrubs such as sage (Lantana involucrate)
and joe wood (Jacquinia aborea).
Blocking access to the vista clearance caused by a visiting film crew a few years ago remains an issue.
Although vegetation has slowly recovered since then, trail hikers can easily gain access to the cliff
edge for the panoramic view. This area is very sensitive as tropicbirds usually nest along this cliff
edge. Furthermore, the only stands of tree cactuses (Opuntia rubescens) found on this island are
confined to this area (see Photo 2). To further protect this sensitive area, we recommend that the
access be fenced off until natural vegetation completely recovers.
Coconuts continue to be harvested on a regular basis. During the June trip, a few climbing ropes were
noted, left dangling from the base of the fronds where the coconuts are usually clustered. This
customary local practice will remain difficult to control.
During the first six months of 2007, evidence of shoreline erosion was significantly less than in
previous years. In fact, during June, we were pleasantly surprised to see that the western beach in
general has experienced some substantial accretion, especially in elevation. The presence of a
minimal number of tropical storms in the last year is certainly a contributing factor.
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Photo 1. Spider lily flowering throughout the island.
Photo 2. Tree cactus along the northeast ridge, Jost Van Dyke in the background.
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SEMI-ANNUAL SANDY CAY SITE VISIT REPORT (Prepared by Jean-Pierre Bacle)
July – December, 2007
INTRODUCTION
From July to December members of the Jost Van Dykes Preservation Society, Resortscapes, Inc.,
and/or Island Resources Foundation visited Sandy Cay on eight occasions. All visits included the
participation of David Blyden, the Sandy Cay caretaker. Susan Zaluski, JVDPS’ new projects manager,
visited the island twice—once with J.P. Bacle on October 12th for an introductory and overview visit of
the on-going maintenance and monitoring programme, and on November 29th with Chris Thomas, to
participate in the fertilisation of palm trees.
POST-RAT-ERADICATION MONITORING
All monitoring trips during the second half of 2007 indicated no sign of rat activity—in other words, no
evidence of rat droppings in and around the 15 bait stations as well as no signs of gnawing on
branches, twigs, or fruits. No rodent trails were observed in the sea purslane ground cover in the
central part of the island.
During the course of the year, we decided to test a new bait station suggested by a local provider (BVI
Pest Control). This new design (#902 Top Loader Bait Station) has thus far been quite successful at
preventing hermit crabs from gaining access to the bait (Photo 1). If this continues to be the case in
the next few months, more stations of this type will be acquired as replacement for the older
deteriorating stations becomes necessary.
TRAIL CONDITION
Trail maintenance along the trail bed and pruning along the trail corridor was kept to a high standard.
Numerous visitors commented on the good appearance of the trail. We noted however that the
majority of walkers were bare footed and unable to walk the rocky upland section. Most of them were
unaware of the trail’s existence and where the trail led. Perhaps once the island is under the
management of the National Parks Trust, a Sandy Cay brochure showing the trail and other island
features should be made available to visitors, perhaps through local charter companies and marine
associations.
BIRD OBSERVATIONS
Records during the latter half of the year reveal modest bird activity except for a large flock of brown
pelicans which was foraging around the island on October 12th (Table 1). The resident population of
bananaquits and yellow warblers continues to be active and in fair numbers.
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Table 1. Bird observations at Sandy Cay.
Species 10/12/07 11/29/07
Magnificent Frigatebird 1
Brown Pelican 45 3
Brown Booby 6
Laughing Gull 2
Scaly-napped Pigeon 4
Common Ground Dove 1
Zenaida Dove 1
Green-throated Carib 2 2
Gray Kingbird 1
Yellow Warbler 12 1
Bananaquit 17 24
VISITATION
As expected, Sandy Cay remains a popular destination for recreational users as indicated by the
figures on Table 2. Peak activity was during the November and December months, the start of the
tourist season. Clive Petrovic, an IRF associate, also recorded anchoring data during this period from
his vantage point on Tortola (see Table 3).
Table 2. Visitation at Sandy Cay on selected days from July to December 2007.
7/28/07 8/28/07 9/15/07 10/12/07 10/20/07 11/17/07 11/29/07 12/18/07
Anchored boats 6 1 4 2 8 11 8 7
Persons on the beach 2 2 8 6 5 27 31 22
Persons on the trail 13 2 6 5 5 6 25
The figures for July 28, August 28, September 15, October 20, November 17, and December 18 record the observations of the
caretaker, David Blyden.
Table 3. Visitation at Sandy Cay (anchored boats only) reported by C. Petrovic.
6/3/07 6/10/07 9/2/07 11/17/07 11/18/07 12/30/07
Anchored boats 6 7 2 3 3 16
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OTHER OBSERVATIONS
The wet season is about to end and Sandy Cay’s vegetation continues to show signs of healthy growth
due primarily to regular rains. Although coconuts continue to be harvested, it is reassuring to see an
increasing number of seedlings along the ground. We estimate that at least half a dozen seedlings are
scattered in the western half of the island.
During this last trip, we noticed a number of sea turtle nest pits throughout the western shoreline, just
inside the vegetation line (Photo 2). These pits were measured at around one metre in diameter and
are possibly those of the hawksbill turtle which customarily nests during this time of the year.
Shoreline Erosion
Evidence of shoreline erosion was apparent along the southern and western beaches. Photo 3 depicts
the typical erosion profile with beach vegetation slumping down the bluff. The cycle of erosion is
expected to continue for a few more months.
Photo 1. New bait station.
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Photo 2. Turtle activity along the western beach, possible nest pit.
Photo 3. Bluff erosion, 3 to 4 feet in height along the south shoreline.
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SANDY CAY SITE VISIT REPORT (Prepared by Jean-Pierre Bacle)
March 10, 2008
INTRODUCTION
On March 10th, Chris Thomas (Resortscapes, Inc.) undertook his first bi-annual visit to Sandy Cay
accompanied by David Blyden (Jost Van Dykes Preservation Society) and Jean-Pierre Bacle (Island
Resources Foundation). The visit focused on a detailed inspection of the island, with trail maintenance
being the primary activity. Rat monitoring and wildlife observations were also undertaken.
POST-RAT-ERADICATION MONITORING
All 15 bait stations revealed no sign of rodent activity. The one new bait station installed in October of
2007 continues to prevent access to hermit crabs. This is positive news, although the new station will
need to be monitored closely in the months ahead since IRF’s earlier experiences indicate that hermit
crabs have a tendency to adjust to new deterrents.
The supply of rodenticide is getting low. A replenishment of stock will need to be provided to the
JVDPS during the next Sandy Cay visit in late April.
TRAIL CONDITION
The dry season coupled with windy conditions in preceding weeks have littered the trail corridor with
dead palm fronds and tree branches. Most of the effort in March focused on clearing this debris.
Pruning back some of the vegetation was required but on a minor scale.
Visitors are continuing to access the upland’s northeast vista where the tropic birds nest, despite
efforts to block the passage with branches and thorny thicket scrub. Thomas and Bacle have
concluded that fencing off the area is the most practical deterrent and will look into the possibility of
purchasing plastic fencing material similar to fences used to control sand dunes and snow drifts.
BIRD OBSERVATIONS
Noteworthy during this trip was the sighting of a couple of red-billed tropicbirds (Phaethon arthereus)
along the northeast rock cliffs. Although the team did not observe any nesting at this time, it
remained quite apparent that these tropicbirds continue to use this section of the cliff as a staging
area and for shelter.
Except for numerous bananaquits (Coereba flaveola) and yellow warblers (Dendroica petechia), bird
activity looked normal for this time of year. A total of twelve species were observed (Table 1). We
encountered few doves and no pigeons during our visit. Most likely, this can be attributed to the dry
spell and the fact that the interior wetland was completely dry.
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Table 1. Bird observations at Sandy Cay.
Species 3/10/08
Red-billed Tropicbird 2
Magnificent Frigatebird 2
Brown Pelican 3
Brown Booby 6
Wilson’s Plover 3
American Oystercatcher 1
Common Ground Dove 4
Zenaida Dove 3
Green-throated Carib 1
Gray Kingbird 1
Yellow Warbler 10
Bananaquit 16
VISITATION
March 10th was a BVI public holiday as well as the beginning of Easter Week; consequently, it was a
very active day in terms of visitor use of the island (Table 2). During the peak period of the day
(noon), we recorded seven dinghies on the beach with at least 30+ visitors.
During our trail maintenance work, we also recorded 30+ persons walking the trail. Many were small
groups of high school and college students.
Table 2 also includes observations by Clive Petrovic of anchored boats viewed from Tortola.
Table 2. Visitation at Sandy Cay, January - March 2008.
1/2/08 1/6/08 2/24/08 3/10/08 3/24/08
Anchored boats 8 5 12 10 4
Persons on the beach 31
Persons on the trail 33
OTHER OBSERVATIONS
Vegetation
Sandy Cay’s vegetation showed signs of stress reflecting the current dry conditions. Heavy winds in
the past week also contributed to bringing down a number of palm fronds and dead branches. After
the clean up, the island looked much more picturesque.
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The magnificent fig tree that highlights the trail head is now suffering from a fungal disease and
unfortunately will follow the plight of the one which succumbed on the upland ridge last year (Photo
1).
On a positive note, we undertook a preliminary count of coconut seedlings, identifying at least nine
such seedlings. This count should be updated on future trips to Sandy Cay, and the growth of the
seedlings should be monitored. Additionally, the small cluster of two broom palm seedlings
(Coccothrinax alta) located in the northwest area of the upland ridge remains in good condition
(Photo 2). The only other specimen recorded on Sandy Cay is located in the lower slope of the
upland ridge to the east of the salt pond. This species is native to the Caribbean and in decline.
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Photo 1. The large fig tree threatened by fungal disease.
Photo 2. A cluster of broom palm seedlings (Coccothrinax alta) along the upland ridge trail.